dendriform

简明释义

英[ˈdendrɪfɔːm]美[ˈdendrəˌfɔrm]

adj. 树状的

英英释义

单词用法

同义词

反义词

例句

1.Finally, based on the theory, the paper gives the applied example of dendriform structure in ShenZhen Culture Center.

最后，以上述理论为基础，论述了树状结构在深圳文化中心的应用典例。

2.Finally, based on the theory, the paper gives the applied example of dendriform structure in ShenZhen Culture Center.

最后，以上述理论为基础，论述了树状结构在深圳文化中心的应用典例。

3.There are many structural units on maps, such as dendriform drainage and orthogonal streets.

地图图形往往具有一定程度的空间结构特征，例如树枝状水系、棋盘状街道网等。

4.The dendriform-column is a new kind of structure of modern constructions.

钢管树状柱是现代建筑工程中一种较新颖的结构形式。

5.The coral exhibited a beautiful dendriform structure, resembling a tree.

这块珊瑚展现出一种美丽的树状结构，像一棵树。

6.In biology, certain fungi are known for their dendriform growth patterns.

在生物学中，某些真菌以其树状生长模式而闻名。

7.The artist created a sculpture that had a dendriform design, mimicking branches of a tree.

这位艺术家创作了一件雕塑，具有树状的设计，模仿树枝。

8.The dendritic cells in the immune system have a dendriform shape.

免疫系统中的树突细胞具有树状形状。

9.During the lecture, the professor explained the dendriform arrangement of neurons.

在讲座中，教授解释了神经元的树状排列。

作文

In the world of biology, the term dendriform refers to a shape that resembles a tree or has branching structures similar to those of a tree. This concept is not only limited to the physical characteristics of organisms but also extends to various fields such as chemistry, where molecular structures can exhibit dendriform arrangements. Understanding this term can enhance our appreciation of the complexity and beauty found in nature. One fascinating example of dendriform structures can be observed in certain types of coral. Coral reefs are often described as underwater forests due to their intricate, tree-like formations. These ecosystems are vital for marine life, providing shelter and food for countless species. The dendriform structure of corals allows them to maximize their surface area, facilitating better nutrient absorption from the surrounding water. This adaptation showcases the importance of the dendriform shape in promoting biodiversity and sustaining life in aquatic environments. Similarly, in the realm of neuroscience, the term dendriform can describe the branching patterns of neurons. Neurons are the fundamental units of the brain and nervous system, and their ability to transmit signals relies heavily on their structure. Dendrites, which are the branched extensions of neurons, play a crucial role in receiving signals from other neurons. The dendriform nature of these structures allows for a vast network of connections, enabling complex communication within the brain. This highlights how the dendriform shape is essential for cognitive functions and overall neural health. Moreover, the concept of dendriform can be applied to architecture and design. Many architects draw inspiration from nature, incorporating dendriform elements into their buildings. For instance, structures that mimic the branching patterns of trees can create harmonious spaces that blend seamlessly with their surroundings. This approach not only enhances aesthetic appeal but also promotes sustainability by utilizing natural forms that require fewer resources to construct. By embracing dendriform designs, architects can contribute to environmentally friendly practices while creating functional and beautiful spaces. In conclusion, the term dendriform encapsulates a wide range of applications across various disciplines. From biology to neuroscience and architecture, the dendriform shape signifies a connection to nature and its inherent complexities. As we continue to explore and understand the world around us, recognizing the significance of dendriform structures can deepen our appreciation for the intricate patterns that define life. Whether observing a coral reef, studying the brain, or designing a building, the concept of dendriform serves as a reminder of the beauty and functionality found in branching forms. Embracing this understanding can inspire innovation and foster a greater respect for the natural world.

在生物学的世界中，术语dendriform指的是一种形状，类似于树木或具有与树木相似的分支结构。这个概念不仅限于生物体的物理特征，还扩展到化学等各个领域，在这些领域中，分子结构可以表现出dendriform排列。理解这个术语可以增强我们对自然界复杂性和美的欣赏。 一个迷人的例子是某些类型的珊瑚，它们的结构可以观察到dendriform形状。珊瑚礁常被描述为水下森林，因为它们复杂的树状结构。这些生态系统对海洋生物至关重要，为无数物种提供庇护和食物。珊瑚的dendriform结构使它们能够最大化其表面积，从而促进更好的营养吸收。这种适应展示了dendriform形状在促进生物多样性和维持水生环境生命中的重要性。 同样，在神经科学领域，术语dendriform可以描述神经元的分支模式。神经元是大脑和神经系统的基本单元，其传递信号的能力在很大程度上依赖于其结构。树突是神经元的分支延伸部分，在接收来自其他神经元的信号中起着关键作用。树突的dendriform特性允许形成广泛的连接网络，使大脑内的复杂通信成为可能。这突显了dendriform形状对于认知功能和整体神经健康的重要性。 此外，dendriform的概念还可以应用于建筑和设计。许多建筑师从自然中汲取灵感，将dendriform元素融入他们的建筑中。例如，模仿树木分支模式的结构可以创造出与周围环境和谐融合的空间。这种方法不仅增强了美学吸引力，还通过利用自然形式来促进可持续性，减少所需资源。通过接受dendriform设计，建筑师可以为环保实践做出贡献，同时创造出功能性和美观的空间。 总之，术语dendriform涵盖了各个学科中的广泛应用。从生物学到神经科学再到建筑，dendriform形状象征着与自然及其固有复杂性的联系。当我们继续探索和理解周围的世界时，认识到dendriform结构的重要性可以加深我们对定义生命的复杂模式的欣赏。无论是观察珊瑚礁、研究大脑，还是设计建筑，dendriform的概念都提醒我们，在分支形式中发现的美丽和功能性。接受这种理解可以激发创新，并培养对自然世界的更大尊重。