arborization

简明释义

英[ˌɑrbəˈraɪzəʃən]美[ˌɑrbəˈraɪzəʃən]

n. 树枝状；分枝

英英释义

单词用法

同义词

反义词

例句

1.The evident arborization structure was observed at the egg handle on egg surface when the egg protoplasm drew back.

卵质收回时，在卵表面卵柄处可见明显的树枝状结构。

2.If successful, the image also takes the shape of withered arborization.

若成功，图像也是呈枯树枝状。

3.The way to influence the concrete strength is floc and arborization formed in concrete.

影响混凝土强度的方式是在混凝土中形成絮状集合体和树枝状细脉。

4.The computed tomography scan (CT scan) shows a local low density area with a higher density arborization-liked image of hepatic vein in the right lower lobe of liver.

CT扫描显示肝右下叶局限性低密度区，其内可见密度较高的树枝状肝静脉影像。

5.However, Non-glandular hairs consist of 3-20 cells, they can be divided into 3 kinds: uniseriate, two-branched, three-branched and more branched arborization.

非腺毛由3—20个细胞组成，可分为三种类型：单列不分枝、二又分枝和三又及三又以上多分枝的树状分枝。

6.The computed tomography scan (CT scan) shows a local low density area with a higher density arborization-liked image of hepatic vein in the right lower lobe of liver.

CT扫描显示肝右下叶局限性低密度区，其内可见密度较高的树枝状肝静脉影像。

7.This paper concludes that the Altyn Tagh Fault, in a form of "arborization", disappeared in the Jiuxi Basin and Huahai Basin.

通过研究得出，阿尔金断裂带以“树枝状”的型式消失在酒西盆地和花海盆地内。

8.Corneal stroma cells formed triangle and arborization, cell-cell junction was obvious, and formed network link.

角膜基质细胞拉长生长，呈三角形或树枝状，细胞间连接明显，可形成网状连接。

9.During the experiment, scientists observed the arborization of neurons in response to environmental changes.

在实验过程中，科学家观察到神经元对环境变化的树状化。

10.The process of neural development includes significant arborization, which refers to the growth of dendritic trees.

神经发育过程包括显著的树状化，即树突树的生长。

11.The arborization of blood vessels is crucial for proper organ function.

血管的树状化对器官的正常功能至关重要。

12.In botany, arborization can describe the branching pattern of a tree's limbs.

在植物学中，树状化可以描述树木枝干的分支模式。

13.The complexity of a plant's root system can be analyzed through its arborization patterns.

植物根系的复杂性可以通过其树状化模式进行分析。

作文

The concept of arborization is often used in various fields, from biology to architecture. In biology, arborization refers to the branching structure of neurons or blood vessels, which allows for efficient communication and distribution of resources within an organism. This intricate network is essential for the proper functioning of both the nervous system and the circulatory system. For instance, the way neurons branch out to connect with one another creates a complex web that facilitates the transmission of signals throughout the body. Similarly, the arborization of blood vessels ensures that oxygen and nutrients are delivered effectively to all cells.In architecture, arborization can be seen in the design of buildings and urban spaces. Architects often draw inspiration from natural forms, including the branching patterns found in trees. Just as trees spread their branches to capture sunlight, buildings can be designed to maximize light and air flow by incorporating arborization principles. This not only enhances the aesthetic appeal but also improves energy efficiency. For example, a building with an arborization layout may feature multiple levels that extend outward, allowing for greater exposure to natural light and ventilation.The importance of arborization extends beyond biology and architecture; it also plays a crucial role in technology. In computer science, data structures such as trees utilize the concept of arborization to organize and manage information efficiently. A binary tree, for example, is a hierarchical structure where each node has at most two children, creating a branching effect similar to that seen in nature. This structure allows for quick data retrieval and manipulation, demonstrating how arborization can lead to improved performance in software applications.Moreover, arborization can be observed in social networks, where individuals connect and interact in a branching manner. The connections formed between people resemble the branches of a tree, with each person representing a node. Social media platforms exemplify this phenomenon, as users create relationships that spread outwards, forming a vast network of connections. Understanding the arborization of social interactions can help researchers analyze trends, behaviors, and the spread of information in society.In conclusion, the term arborization encapsulates the idea of branching and connection across various domains. Whether in biology, architecture, technology, or social networks, arborization highlights the importance of interconnectedness and efficiency. By studying these patterns, we can glean insights that inform our understanding of complex systems and improve our designs and interactions. Embracing the principles of arborization can lead to innovative solutions and a deeper appreciation of the natural world around us.

“arborization”这个概念常常用于生物学到建筑学等各个领域。在生物学中，arborization指的是神经元或血管的分支结构，这使得在生物体内有效的沟通和资源分配成为可能。这种复杂的网络对于神经系统和循环系统的正常运作至关重要。例如，神经元如何分支以相互连接，形成一个复杂的网络，促进信号在全身的传输。同样，血管的arborization确保氧气和营养物质能够有效地输送到所有细胞。在建筑学中，arborization可以在建筑和城市空间的设计中看到。建筑师常常从自然形式中汲取灵感，包括树木的分支模式。正如树木伸展它们的树枝以捕捉阳光，建筑物也可以通过融入arborization原则来最大化光线和空气流动。这不仅增强了美学吸引力，还改善了能效。例如，具有arborization布局的建筑可能会设有多个向外延伸的层，从而允许更多的自然光和通风。arborization的重要性超越了生物学和建筑学；它在技术领域也发挥着关键作用。在计算机科学中，数据结构如树利用arborization的概念来有效地组织和管理信息。例如，二叉树是一种层次结构，每个节点最多有两个子节点，形成类似于自然界中观察到的分支效果。这种结构允许快速的数据检索和操作，展示了arborization如何提高软件应用的性能。此外，arborization还可以在社交网络中观察到，个体以分支的方式连接和互动。人与人之间形成的连接类似于树的分支，每个人代表一个节点。社交媒体平台就是这种现象的典范，因为用户创建的关系向外扩展，形成一个庞大的连接网络。理解社交互动的arborization可以帮助研究人员分析趋势、行为和信息在社会中的传播。总之，术语arborization概括了在各个领域中分支和连接的概念。无论是在生物学、建筑学、技术还是社交网络中，arborization突显了互联性和效率的重要性。通过研究这些模式，我们可以获得见解，丰富我们对复杂系统的理解，并改善我们的设计和互动。拥抱arborization的原则可以带来创新解决方案，并加深我们对周围自然世界的欣赏。