meshwork
简明释义
n. 网络;网状组织
英英释义
单词用法
n. 小梁网,小梁网状结构 |
同义词
反义词
| 断开 | 网络的断开导致了重大问题。 | ||
| 分离 | 两个部门之间有明显的分离。 |
例句
1.It is approved that the software system is steady and reliable by experiments of sampling high frequency signal and many nodes forming meshwork in the DJ1.1 platform.
在自研平台DJ1.1上对高频信号的采样和多节点组网的实验结果表明,该平台的软件系统稳定可靠。
2.Objective To investigate the application of individualized titanium meshwork in repairing supraorbital defects.
目的探讨个性化钛网精确修复眉弓骨质缺损的初步应用。
3.Objective:To evaluate the effect of trabecular meshwork rotated subsclera flap with relaxable suture for glaucoma.
目的:探讨巩膜瓣下小梁组织转位联合巩膜瓣可松解缝线术治疗青光眼的疗效。
4.Conclusions Oxidative stress can induce the expression of ELAM-1 in porcine trabecular meshwork cells.
结论氧化应激可诱导猪眼小梁细胞表达ELAM- 1。
5.Trabecular meshwork, ciliary body, retina and optic nerve will be the targets for glaucoma gene therapy.
青光眼基因治疗的靶目标包括眼前节的小梁网和睫状体、眼后节的视网膜神经节细胞等。
6.The apoptosis of retinal ganglion cells and trabecular meshwork cells plays an important role in the pathogenesis, diagnosis and management of glaucoma.
青光眼视网膜神经节细胞及小梁细胞的凋亡在青光眼的发病机制、诊断治疗中发挥重要作用。
7.In urban planning, the meshwork of streets and public transport routes must be carefully designed.
在城市规划中,街道和公共交通路线的网状结构必须经过精心设计。
8.The meshwork of relationships within the organization is crucial for effective communication.
组织内部的网状结构关系对有效沟通至关重要。
9.The artist created a stunning meshwork of colors and shapes in her latest painting.
这位艺术家在她最新的画作中创造了一个令人惊叹的网状结构,充满颜色和形状。
10.The spider's web is a complex meshwork of silk strands that trap insects.
蜘蛛网是一个复杂的网状结构,由丝线组成,用于捕捉昆虫。
11.Biologists study the meshwork of neural connections in the brain to understand its functions.
生物学家研究大脑中的网状结构神经连接,以理解其功能。
作文
In the intricate world of ecology, the concept of meshwork (网状结构) plays a crucial role in understanding the interconnections between various species and their environments. A meshwork is not merely a random assortment of organisms; rather, it represents a complex and dynamic network of relationships that contribute to the stability and sustainability of ecosystems. This interconnectedness can be observed in various forms, such as food webs, symbiotic relationships, and even in the way plants and animals interact with their physical surroundings.For instance, consider a forest ecosystem. The trees, underbrush, fungi, insects, and animals all exist within a meshwork (网状结构) of interactions. Trees provide shelter and food for various animals, while animals help in pollination and seed dispersal, ensuring the continuation of plant species. Furthermore, the fungi that grow in the soil form mycorrhizal associations with tree roots, enhancing nutrient absorption. This meshwork of relationships illustrates how each component relies on one another, creating a balanced environment.Moreover, the concept of meshwork (网状结构) extends beyond natural ecosystems to human societies as well. In urban areas, social networks can be seen as a meshwork of relationships among individuals, organizations, and institutions. Just like in nature, these connections are vital for the functioning of communities. They facilitate the sharing of resources, information, and support, which ultimately leads to a more resilient society.In recent years, the importance of recognizing these meshworks (网状结构) has become increasingly evident in addressing global challenges such as climate change and biodiversity loss. By understanding the intricate connections within ecosystems, conservationists can develop more effective strategies to protect endangered species and their habitats. For example, restoring a damaged habitat requires an appreciation of the meshwork of life that exists there. Efforts to reintroduce a species must consider its role within the larger network, ensuring that the restoration promotes overall ecosystem health.Additionally, the idea of meshwork (网状结构) encourages a holistic approach to problem-solving. Instead of isolating issues, we can look at how different factors are interconnected. For example, addressing water pollution involves understanding how it affects not only aquatic life but also the terrestrial animals and humans who depend on clean water sources. Recognizing these meshworks (网状结构) allows for more comprehensive solutions that take into account the myriad ways in which life is interdependent.In conclusion, the concept of meshwork (网状结构) serves as a powerful reminder of the interconnectedness of life. Whether in ecological systems or human societies, these networks of relationships are essential for maintaining balance and resilience. By embracing this understanding, we can work towards a future that respects and nurtures the intricate meshworks (网状结构) that sustain us all.
在生态学的复杂世界中,概念meshwork(网状结构)在理解各种物种及其环境之间的相互联系时发挥着至关重要的作用。meshwork不仅仅是随机的生物集合;相反,它代表了一种复杂而动态的关系网络,这些关系有助于生态系统的稳定性和可持续性。这种相互联系可以在多种形式中观察到,例如食物网、共生关系,甚至植物和动物与其物理环境的互动。例如,考虑一个森林生态系统。树木、灌木、真菌、昆虫和动物都存在于一个meshwork(网状结构)关系中。树木为各种动物提供庇护和食物,而动物则帮助授粉和种子传播,确保植物物种的延续。此外,生长在土壤中的真菌与树根形成菌根关联,增强了营养吸收。这种meshwork关系说明了每个组成部分如何相互依赖,从而创造出一个平衡的环境。此外,meshwork(网状结构)的概念不仅限于自然生态系统,也延伸到人类社会。在城市地区,社会网络可以被视为个体、组织和机构之间的meshwork关系。就像在自然界中一样,这些联系对于社区的运作至关重要。它们促进资源、信息和支持的共享,最终导致一个更具韧性的社会。近年来,认识到这些meshworks(网状结构)重要性在应对气候变化和生物多样性丧失等全球挑战中变得愈加明显。通过理解生态系统内的复杂连接,保护主义者可以制定更有效的策略来保护濒危物种及其栖息地。例如,恢复受损的栖息地需要欣赏那里存在的meshwork生命。重新引入一种物种的努力必须考虑其在更大网络中的角色,以确保恢复促进整体生态系统健康。此外,meshwork(网状结构)的想法鼓励一种整体的方法来解决问题。我们可以考虑不同因素是如何相互联系的,而不是孤立问题。例如,解决水污染问题涉及理解它不仅影响水生生物,还影响依赖清洁水源的陆生动物和人类。认识到这些meshworks(网状结构)使我们能够提出更全面的解决方案,考虑到生活相互依赖的无数方式。总之,meshwork(网状结构)的概念作为生命相互联系的重要提醒。无论是在生态系统还是人类社会中,这些关系网络对于维持平衡和韧性至关重要。通过拥抱这种理解,我们可以朝着一个尊重和培育支撑我们所有人的复杂meshworks(网状结构)的未来努力。
