anticyclonic region

简明释义

反气旋区域

英英释义

例句

1.Meteorologists study the effects of an anticyclonic region (反气旋区) on local climate patterns.

气象学家研究anticyclonic region (反气旋区) 对当地气候模式的影响。

2.The anticyclonic region (反气旋区) is characterized by high pressure and descending air, leading to dry conditions.

anticyclonic region (反气旋区) 的特征是高压和下沉气流，导致干燥的天气条件。

3.The weather forecast indicates that we will be experiencing clear skies due to the presence of an anticyclonic region (反气旋区) over the area.

天气预报显示，由于该地区存在一个anticyclonic region (反气旋区)，我们将经历晴朗的天空。

4.Farmers are pleased with the stable weather brought by the anticyclonic region (反气旋区) that has settled in for the week.

农民们对本周稳定的天气感到高兴，因为一个anticyclonic region (反气旋区) 已经在这里停留。

5.During summer, the anticyclonic region (反气旋区) often leads to heatwaves in the southern regions.

夏季，anticyclonic region (反气旋区) 常常导致南部地区出现热浪。

作文

The atmosphere is a complex system governed by various forces and phenomena. One of the significant features that can be observed in meteorology is the presence of an anticyclonic region. An anticyclonic region refers to an area where the atmospheric pressure is higher than that of the surrounding areas, leading to descending air and generally clear skies. This phenomenon is crucial for understanding weather patterns and predicting climatic changes.In an anticyclonic region, the air moves in a clockwise direction in the Northern Hemisphere and counterclockwise in the Southern Hemisphere due to the Coriolis effect. This movement creates a stable environment, which is often associated with fair weather conditions. Unlike cyclonic regions, where air rises and leads to cloud formation and precipitation, anticyclonic regions promote the dispersal of clouds and reduce the likelihood of rain.The significance of anticyclonic regions extends beyond mere weather patterns; they play a vital role in the climate system. For instance, during the summer months, the development of anticyclonic regions can lead to prolonged periods of heat and drought in certain areas. Conversely, in winter, these regions may contribute to cold, dry conditions that can affect agriculture and water supply.Meteorologists utilize the concept of anticyclonic regions to forecast weather events. By analyzing satellite images and pressure charts, they can identify the formation of these regions and predict their movement. For example, if a strong anticyclonic region is approaching a coastal area, it may indicate several days of sunny weather ahead, allowing residents to plan outdoor activities accordingly.Furthermore, anticyclonic regions are often associated with specific climatic phenomena such as inversions, where warmer air traps cooler air near the surface. This can lead to foggy conditions in valleys and increased air pollution, as the stagnant air prevents the dispersion of pollutants. Understanding the dynamics of anticyclonic regions is essential for addressing environmental issues and implementing effective air quality management strategies.In conclusion, the study of anticyclonic regions provides valuable insights into atmospheric behavior and its impact on weather and climate. As we continue to explore the intricacies of our planet's atmosphere, recognizing the importance of these regions will help us better prepare for and adapt to changing environmental conditions. The interplay between anticyclonic regions and other atmospheric phenomena is a testament to the complexity of Earth's climate system, highlighting the need for ongoing research and monitoring to enhance our understanding of meteorological processes.

大气是一个复杂的系统，由各种力量和现象主导。在气象学中，一个显著的特征是存在反气旋区域。反气旋区域是指气压高于周围地区的区域，导致空气下沉，通常伴随晴朗的天空。这一现象对于理解天气模式和预测气候变化至关重要。在反气旋区域，空气在北半球以顺时针方向移动，而在南半球则是逆时针方向，这一现象是由于科里奥利效应造成的。这种运动创造了一个稳定的环境，通常与良好的天气条件相关。与气旋区域不同，气旋区域的空气上升，导致云层形成和降水，而反气旋区域则促进云层的消散，并减少降雨的可能性。反气旋区域的重要性不仅仅体现在天气模式上；它们在气候系统中也发挥着至关重要的作用。例如，在夏季，反气旋区域的发展可能导致某些地区持续的高温和干旱。相反，在冬季，这些区域可能会导致寒冷、干燥的条件，从而影响农业和水资源供应。气象学家利用反气旋区域的概念来预测天气事件。通过分析卫星图像和气压图，他们可以识别这些区域的形成并预测其移动。例如，如果一个强大的反气旋区域正接近沿海地区，这可能意味着未来几天将会有晴朗的天气，居民可以据此计划户外活动。此外，反气旋区域通常与特定的气候现象如逆温有关，逆温现象使得温暖的空气困住了靠近地面的冷空气。这可能导致山谷中的雾霾和空气污染增加，因为静止的空气阻碍了污染物的扩散。理解反气旋区域的动态对解决环境问题和实施有效的空气质量管理策略至关重要。总之，研究反气旋区域提供了对大气行为及其对天气和气候影响的宝贵见解。随着我们继续探索地球大气的复杂性，认识到这些区域的重要性将帮助我们更好地为变化的环境条件做好准备和适应。反气旋区域与其他大气现象之间的相互作用证明了地球气候系统的复杂性，强调了持续研究和监测的必要性，以增强我们对气象过程的理解。