zonal
简明释义
adj. 地带的,区域的;区域性的,分成区的
英英释义
与某个区域相关或具有区域性质的。 | |
Divided into zones, often for purposes such as organization or classification. | 被划分为多个区域,通常用于组织或分类等目的。 |
单词用法
纬向环流 |
同义词
| 区域的 | 区域发展 | ||
| 部门的 | 部门分析 | ||
| 分区的 | 分区分布 |
反义词
例句
1.Lateritic crust of basalts is of zonal texture.
玄武岩红土壳具帝状结构。
2.The effective measures are presented bo avoid zonal segregation of carbide.
提出了避免碳化物带状偏析的有效措施。
3.The western Pacific warm pool is mainly contributed by zonal temperature advection.
在赤道西太平洋暖池,温度的纬向对流有很大的贡献。
4.Zonal electrical distribution system, providing nearly three times the ship service electrical power.
带状电子分发系统,提供接近3倍的舰船通信业务电力。
5.Zonal flows can be driven by the radial gradient of the Reynolds stress.
雷诺协强的径向梯度驱动带状流抑制了湍流输运。
6.These components are known as the zonal kinetic energy and eddy kinetic energy respectively.
这两部分能量分别称作纬向动能和涡旋动能。
7.It has characteristics of polystage-magmatic intrusions, polystage metallogenetic evolution and zonal differentiation of the ore deposit.
具有多阶段岩浆侵入,多阶段成矿演变及矿床带状分异的特征。
8.Intuitive zonal defending will cover Spaces and players need to look constantly for new ways to attack.
直观的地带性覆盖空间和球员的防守需要不断的新途径,攻击。
9.The climate model uses zonal 带状的 wind patterns to predict weather changes.
气候模型使用带状的zonal风模式来预测天气变化。
10.The zonal 带状的 arrangement of cities can affect regional economies.
城市的带状的zonal排列可能会影响区域经济。
11.The zonal 带状的 distribution of vegetation can be seen in the Amazon rainforest.
在亚马逊雨林中可以看到植物的带状的zonal分布。
12.Our study focuses on zonal 带状的 variations in temperature across the continent.
我们的研究集中在整个大陆的带状的zonal温度变化上。
13.In geography, a zonal 带状的 system helps classify different regions based on climate.
在地理学中,带状的zonal系统有助于根据气候对不同地区进行分类。
作文
In the study of geography and environmental science, the term zonal refers to the concept of dividing areas into specific zones based on certain characteristics. These characteristics can include climate, vegetation, land use, and even human activities. Understanding zonal patterns is crucial for various fields, including agriculture, urban planning, and ecology. For instance, in agriculture, farmers utilize zonal information to determine which crops are best suited for their region's climate and soil type. This not only maximizes yield but also promotes sustainable practices by aligning farming methods with the natural environment.Moreover, in urban planning, city planners consider zonal divisions when designing infrastructure and public services. Different zones may require different types of facilities, such as schools, hospitals, or parks. By analyzing zonal data, planners can create balanced communities that meet the needs of their residents.Ecologists also rely on zonal concepts to understand ecosystems. For example, the distribution of plant and animal species often follows zonal patterns influenced by altitude, latitude, and other environmental factors. By studying these patterns, scientists can gain insights into biodiversity and conservation efforts. A practical example of zonal analysis can be seen in the classification of climate zones around the world. The Köppen climate classification system categorizes global climates into five main groups, each with distinct zonal characteristics. This classification helps researchers and policymakers understand the climate-related challenges faced by different regions, such as droughts in arid zones or flooding in tropical zones.Furthermore, the concept of zonal can be applied to social sciences as well. For instance, urban sociologists might study the zonal distribution of socioeconomic status within a city. By mapping out areas of wealth and poverty, they can identify patterns of inequality and develop strategies for social intervention.In conclusion, the term zonal encompasses a wide range of applications across various disciplines. Whether it is in understanding ecological systems, enhancing agricultural practices, or improving urban infrastructure, recognizing zonal distinctions allows for more effective decision-making and resource management. As our world continues to change, the importance of zonal analysis will only grow, making it an essential concept for future studies and applications.
在地理和环境科学的研究中,术语zonal指的是根据某些特征将区域划分为特定区域的概念。这些特征可以包括气候、植被、土地利用,甚至人类活动。理解zonal模式对农业、城市规划和生态学等多个领域至关重要。例如,在农业中,农民利用zonal信息来确定哪些作物最适合其地区的气候和土壤类型。这不仅最大化了产量,而且通过使农业方法与自然环境相一致,促进了可持续实践。此外,在城市规划中,城市规划者在设计基础设施和公共服务时考虑zonal划分。不同的区域可能需要不同类型的设施,如学校、医院或公园。通过分析zonal数据,规划者可以创建满足居民需求的平衡社区。生态学家也依赖于zonal概念来理解生态系统。例如,植物和动物物种的分布往往遵循受海拔、纬度和其他环境因素影响的zonal模式。通过研究这些模式,科学家可以深入了解生物多样性和保护工作。zonal分析的一个实际例子可以在全球气候区的分类中看到。科本气候分类系统将全球气候分为五个主要组,每个组都有不同的zonal特征。这一分类帮助研究人员和决策者理解不同地区面临的气候相关挑战,例如干旱地区的干旱或热带地区的洪水。此外,zonal的概念也可以应用于社会科学。例如,城市社会学家可能会研究城市内社会经济状态的zonal分布。通过绘制财富和贫困区域的地图,他们可以识别不平等的模式并制定社会干预策略。总之,术语zonal涵盖了各个学科中广泛的应用。无论是在理解生态系统、增强农业实践还是改善城市基础设施方面,认识到zonal的区别都能使决策和资源管理更加有效。随着我们的世界不断变化,zonal分析的重要性只会增加,使其成为未来研究和应用的一个重要概念。
