zonary
简明释义
adj. 带状的;像带子的;分区的
英英释义
与区域相关或类似的;以区域为特征的。 |
单词用法
同义词
| 带状的 | The zonary structure of the plant's leaves helps in photosynthesis. | 植物叶子的带状结构有助于光合作用。 | |
| 带状的 | 这件裙子的带状外观使它显得格外突出。 | ||
| 条纹的 | The banded pattern on the fabric is very popular this season. | 这种面料上的条纹图案在这个季节非常受欢迎。 |
反义词
例句
1.Shou-jin-liao (Zonary Bungalow) is a type of traditional dwelling with unique local flavor.
手巾寮是一种独具地方特色的传统民居类型。
2.The distribution of zonary shore-shallow lacustine sandy beach-bars along the maximum lacustine bank line in the area of Fu 62 well-Fu 13 well is bigger.
其中沿最大湖岸线带状分布的富62井—富13井一带的滨浅湖砂质滩坝规模较大。
3.This Paper studies the problem of search tactics optimization that the submarine searches the target in the zonary channel.
研究了潜艇在带状航道内搜索目标时的搜索战术优化问题。
4.The distribution of zonary shore-shallow lacustine sandy beach-bars along the maximum lacustine bank line in the area of Fu 62 well-Fu 13 well is bigger.
其中沿最大湖岸线带状分布的富62井—富13井一带的滨浅湖砂质滩坝规模较大。
5.The geologist studied the zonary 带状的 rock formations to understand the area's volcanic history.
地质学家研究了这些zonary 带状的岩石层,以了解该地区的火山历史。
6.In ecology, the zonary 带状的 distribution of species can indicate environmental changes.
在生态学中,物种的zonary 带状的分布可以表明环境变化。
7.The zonary 带状的 layout of the city helped in organizing traffic flow efficiently.
城市的zonary 带状的布局有助于高效地组织交通流。
8.Research on zonary 带状的 climate zones is crucial for predicting weather patterns.
对zonary 带状的气候区的研究对于预测天气模式至关重要。
9.The architect designed the park with zonary 带状的 gardens for different types of plants.
建筑师设计了一个公园,里面有不同植物类型的zonary 带状的花园。
作文
In the realm of geography and ecology, the term zonary refers to something that is arranged in zones or layers. This concept can be particularly useful when discussing the distribution of various species across different habitats or the organization of ecosystems. Understanding the zonary nature of these environments can help scientists and researchers develop better conservation strategies, as well as inform us about the intricate relationships between organisms and their surroundings. For instance, consider a tropical rainforest, which can be described as having a very distinct zonary structure. In such an ecosystem, different layers exist, including the emergent layer, the canopy, the understory, and the forest floor. Each of these layers hosts unique flora and fauna that have adapted to the specific conditions of their respective zones. The emergent layer, for example, consists of tall trees that rise above the canopy and are often home to birds and insects that thrive in high altitudes. The canopy, on the other hand, is rich in biodiversity, supporting countless species of plants and animals that rely on the dense foliage for shelter and food. The zonary arrangement of these layers not only promotes biodiversity but also plays a crucial role in the overall health of the ecosystem. By understanding how different species interact within these zones, conservationists can better protect endangered species and restore damaged habitats. For instance, if a particular bird species is found primarily in the canopy layer, efforts to preserve this habitat become vital for the survival of that species. Moreover, the concept of zonary organization can also be applied to urban planning and architecture. Cities often have distinct zones designated for residential, commercial, and industrial purposes. Recognizing the zonary layout of a city can lead to more efficient resource allocation and improved quality of life for its inhabitants. For example, creating green spaces within urban areas can enhance air quality and provide recreational opportunities for residents, thereby fostering a healthier community. In conclusion, the idea of zonary structures is pivotal in various fields, from ecology to urban planning. By appreciating the significance of zones in both natural and human-made environments, we can work towards more sustainable practices that benefit both our planet and its inhabitants. Whether we are studying the layered complexities of a rainforest or the organized chaos of a bustling city, the zonary principle remains a vital component in our understanding of the world around us.
在地理和生态学领域,术语zonary指的是以区域或层次排列的事物。这个概念在讨论不同栖息地中各种物种的分布或生态系统的组织时特别有用。理解这些环境的zonary特性可以帮助科学家和研究人员制定更好的保护策略,同时也让我们了解生物与其周围环境之间错综复杂的关系。例如,考虑热带雨林,它可以被描述为具有非常明显的zonary结构。在这样的生态系统中,存在不同的层次,包括突出的层、树冠层、下层和森林地面。每一层都有独特的植物和动物,已经适应了各自区域的特定条件。例如,突出的层由高大的树木组成,这些树木高出树冠层,通常是生活在高海拔的鸟类和昆虫的栖息地。另一方面,树冠层富含生物多样性,支持无数依赖于浓密树叶提供庇护和食物的植物和动物物种。这些层次的zonary排列不仅促进了生物多样性,还在整体生态系统的健康中发挥着至关重要的作用。通过理解不同物种如何在这些区域内相互作用,保护主义者可以更好地保护濒危物种并恢复受损的栖息地。例如,如果某种特定的鸟类主要生活在树冠层,那么保护这一栖息地的努力对于该物种的生存变得至关重要。此外,zonary组织的概念也可以应用于城市规划和建筑。城市通常具有专门用于住宅、商业和工业的不同区域。认识到城市的zonary布局可以导致资源分配更有效,并改善居民的生活质量。例如,在城市地区创建绿色空间可以改善空气质量,并为居民提供休闲机会,从而促进一个更健康的社区。总之,zonary结构的理念在各个领域都是至关重要的,从生态学到城市规划。通过欣赏自然和人造环境中区域的重要性,我们可以朝着更可持续的实践迈进,这些实践既有利于我们的星球,也有利于其居民。无论我们是在研究雨林的层次复杂性,还是在研究繁忙城市的有序混乱,zonary原则始终是我们理解周围世界的重要组成部分。
