mesoscale

简明释义

英[ˈmɛzoʊskeɪl]美[ˈmɛzoʊskeɪl]

n. 中尺度；介尺度

adj. 中尺度的

英英释义

单词用法

同义词

反义词

例句

1.Thus, there exist some relationship between the multi-eddy structure of the South China Sea circulation and mesoscale fluctuation.

因此，南海环流的多涡结构与中尺度波动之间存在着一定的联系。

2.A mesoscale ice dynamics model for the Bohai sea is presented.

本文提出了一个适用于渤海中等尺度海冰的动力学模型。

3.The mesoscale model MM4 was adopted to investigate the sensitivity of model simulated rainstorm to moisture transport schemes.

利用中尺度模式MM4，研究了中尺度模式的暴雨模拟对于不同水汽输送方案的敏感性。

4.With several observational data and mesoscale numerical model output data, it is analyzed an abrupt heavy rain in eastern Hubei resulted from mesoscale convective system.

利用多种观测资料和中尺度数值模式输出资料，分析了一次中尺度对流系统造成的鄂东地区突发性大暴雨天气过程。

5.Certainly labeling a research proposal "nanotechnology" has a more alluring ring than calling it "applied mesoscale materials science".

很明显，给研究课题标以“纳米技术”的标签会比“应用中尺度材料科学”的标签更具吸引力。

6.The mesoscale rainstorm often occurs around the area with zero radial speed or its inflexion.

中尺度暴雨常出现在零径向速度附近及其折角处。

7.The necessity coupling land surface process model with mesoscale atmosphere model, and the present situation of research on coupling model are simply summarized.

简述了大气中尺度模式与陆面过程耦合的必要性以及当今耦合模式的研究现状。

8.Researchers are focusing on mesoscale dynamics to improve storm forecasting.

研究人员专注于中尺度动力学，以改善风暴预测。

9.In climate modeling, understanding mesoscale phenomena is crucial for accurate predictions.

在气候建模中，理解中尺度现象对准确预测至关重要。

10.Satellite imagery helps scientists analyze mesoscale weather systems in real-time.

卫星图像帮助科学家实时分析中尺度天气系统。

11.The meteorologist studied the mesoscale weather patterns to predict localized storms.

气象学家研究了中尺度天气模式，以预测局部风暴。

12.The mesoscale structure of the atmosphere can influence local temperature variations.

大气的中尺度结构可以影响局部温度变化。

作文

The term mesoscale refers to a specific range of spatial and temporal scales in meteorology and other scientific fields. It typically encompasses phenomena that are larger than microscale events but smaller than macroscale ones. Understanding mesoscale processes is crucial for accurate weather forecasting and climate modeling. For instance, the development of thunderstorms often occurs at the mesoscale, where local atmospheric conditions interact to create severe weather patterns. These interactions can lead to the formation of convective cells, which are essential for precipitation and storm development.In addition to meteorology, the concept of mesoscale is also applicable in oceanography, where it describes ocean currents and eddies that impact marine ecosystems. The mesoscale features in the ocean can influence nutrient distribution, which in turn affects the food web and overall biodiversity. By studying these mesoscale phenomena, scientists can gain insights into larger environmental patterns and changes, such as climate change and its effects on marine life.Moreover, the mesoscale is significant in the field of geography, particularly in urban studies. Urban planners analyze mesoscale data to understand how city layouts, transportation systems, and land use affect local climates, known as urban heat islands. By focusing on mesoscale interactions within urban environments, planners can devise strategies to mitigate heat effects and improve sustainability.In the context of remote sensing, mesoscale data is critical for monitoring environmental changes over time. Satellites equipped with advanced sensors can capture mesoscale variations in temperature, humidity, and vegetation cover. This information is invaluable for assessing the impacts of human activity and natural disasters, enabling timely responses to mitigate damage.Furthermore, the study of mesoscale phenomena extends to the field of ecology, where researchers investigate the distribution of species and their habitats. Understanding the mesoscale factors that influence species interactions and ecosystem dynamics is vital for conservation efforts. For example, habitat fragmentation can create mesoscale barriers that affect animal migration and genetic diversity, leading to population declines.In conclusion, the concept of mesoscale plays a pivotal role across various scientific disciplines. Whether in meteorology, oceanography, urban planning, remote sensing, or ecology, understanding mesoscale processes is essential for addressing complex environmental challenges. As we continue to advance our knowledge and technologies, the importance of mesoscale analysis will only grow, enabling us to make informed decisions for the future of our planet.

术语mesoscale指的是气象学和其他科学领域中一种特定的空间和时间尺度范围。它通常涵盖比微观事件更大但比宏观事件更小的现象。理解mesoscale过程对准确的天气预报和气候建模至关重要。例如，雷暴的发展通常发生在mesoscale上，在这种情况下，当地的气象条件相互作用，形成严重的天气模式。这些相互作用可以导致对流单元的形成，这对于降水和风暴发展是必不可少的。除了气象学，mesoscale的概念在海洋学中也适用，它描述了影响海洋生态系统的洋流和涡旋。海洋中的mesoscale特征可以影响养分分布，从而影响食物链和整体生物多样性。通过研究这些mesoscale现象，科学家可以深入了解更大环境模式和变化，例如气候变化及其对海洋生物的影响。此外，mesoscale在地理学领域，特别是在城市研究中也具有重要意义。城市规划者分析mesoscale数据，以了解城市布局、交通系统和土地使用如何影响当地气候，称为城市热岛效应。通过关注城市环境中的mesoscale相互作用，规划者可以制定减缓热效应和改善可持续性的策略。在遥感的背景下，mesoscale数据对于监测环境变化至关重要。配备先进传感器的卫星可以捕捉温度、湿度和植被覆盖的mesoscale变化。这些信息对于评估人类活动和自然灾害的影响是无价的，使得及时响应以减轻损害成为可能。此外，mesoscale现象的研究扩展到生态学领域，研究人员调查物种及其栖息地的分布。理解影响物种相互作用和生态系统动态的mesoscale因素对于保护工作至关重要。例如，栖息地的破碎化可以造成影响动物迁徙和遗传多样性的mesoscale障碍，导致种群减少。总之，mesoscale的概念在各个科学学科中发挥着关键作用。无论是在气象学、海洋学、城市规划、遥感还是生态学，理解mesoscale过程对于应对复杂的环境挑战至关重要。随着我们继续推进我们的知识和技术，mesoscale分析的重要性只会增加，使我们能够为地球的未来做出明智的决策。