anticyclonic wind

简明释义

反气旋风

英英释义

例句

1.During the summer, we often experience anticyclonic winds (反气旋风) that lead to hot and dry conditions.

在夏季，我们经常经历反气旋风，导致炎热和干燥的天气。

2.The anticyclonic wind (反气旋风) is often associated with high-pressure systems in meteorology.

在气象学中，反气旋风通常与高压系统相关联。

3.The weather forecast indicated that an anticyclonic wind (反气旋风) would bring clear skies this weekend.

天气预报显示，反气旋风将会在这个周末带来晴朗的天空。

4.Farmers rely on anticyclonic winds (反气旋风) to help with pollination during the growing season.

农民依赖于反气旋风来帮助生长季节的授粉。

5.The anticyclonic wind (反气旋风) helped to disperse the fog that had settled over the city.

这股反气旋风帮助驱散了笼罩城市的雾霭。

作文

Understanding the dynamics of weather patterns is essential for predicting climate changes and preparing for natural disasters. One crucial element in meteorology is the concept of wind patterns, particularly the anticyclonic wind, which plays a significant role in shaping our weather systems. An anticyclonic wind refers to the wind that circulates in a clockwise direction around a high-pressure area in the Northern Hemisphere and counterclockwise in the Southern Hemisphere. This phenomenon occurs due to the Coriolis effect, which is caused by the rotation of the Earth. As air moves from regions of high pressure to low pressure, it is deflected to the right in the Northern Hemisphere and to the left in the Southern Hemisphere, creating distinct wind patterns.The formation of anticyclonic winds is often associated with fair weather conditions. High-pressure systems generally lead to clear skies as they inhibit cloud formation and precipitation. This is because descending air in a high-pressure system warms up and dries out, preventing moisture from condensing into clouds. Consequently, areas influenced by anticyclonic winds tend to experience stable weather, making them ideal for outdoor activities and agriculture.In contrast, the opposite of anticyclonic winds are cyclonic winds, which circulate counterclockwise around low-pressure systems. These winds are often linked to stormy weather, heavy rainfall, and turbulent conditions. Understanding the differences between these two types of winds is vital for meteorologists as they analyze weather patterns and forecast future conditions.The impact of anticyclonic winds extends beyond just local weather. They can influence larger climatic patterns and phenomena such as droughts or heatwaves. For instance, prolonged periods of high pressure can lead to significant drying of the soil and a reduction in water supplies, affecting agriculture and ecosystems. As climate change continues to alter weather patterns, the behavior and frequency of anticyclonic winds may also change, leading to unforeseen consequences for various regions.Moreover, understanding anticyclonic winds is crucial for aviation and maritime industries. Pilots and ship captains rely on accurate weather forecasts that include information about wind patterns to ensure safe navigation. Strong anticyclonic winds can create favorable flying conditions, while their absence may indicate potential turbulence or storms elsewhere.In summary, the study of anticyclonic winds is an integral part of meteorology that helps us understand weather systems and their broader impacts. By recognizing the characteristics and effects of these winds, we can better prepare for weather-related challenges and appreciate the intricate balance of our atmosphere. As we continue to face the realities of climate change, the importance of studying wind patterns like anticyclonic winds cannot be overstated. They not only shape our daily weather but also play a critical role in the health of our planet.

了解天气模式的动态对于预测气候变化和准备自然灾害至关重要。气象学中的一个关键元素是风模式的概念，特别是反气旋风，它在塑造我们的天气系统中起着重要作用。反气旋风指的是在北半球高压区周围以顺时针方向循环的风，而在南半球则是逆时针方向。这一现象是由于地球自转引起的科里奥利效应造成的。当空气从高压区流向低压区时，在北半球被向右偏转，在南半球则向左偏转，从而形成不同的风模式。反气旋风的形成通常与良好的天气条件相关。高压系统通常导致晴朗的天空，因为它们抑制云层形成和降水。这是因为高压系统中的下降气流升温并变干，防止水分凝结成云。因此，受反气旋风影响的地区往往经历稳定的天气，使其成为户外活动和农业的理想场所。相反，反气旋风的对立面是气旋风，它们围绕低压系统逆时针旋转。这些风通常与暴风雨、强降雨和动荡的天气条件有关。理解这两种风之间的差异对气象学家至关重要，因为他们分析天气模式并预测未来的天气状况。反气旋风的影响不仅限于局部天气。它们可以影响更大范围的气候模式和现象，例如干旱或热浪。例如，长期的高压时期可能导致土壤显著干燥和水源减少，影响农业和生态系统。随着气候变化继续改变天气模式，反气旋风的行为和频率也可能发生变化，导致各个地区出现意想不到的后果。此外，了解反气旋风对于航空和海运行业至关重要。飞行员和船长依赖于包括风模式信息的准确天气预报，以确保安全航行。强烈的反气旋风可以创造有利的飞行条件，而它们的缺乏可能表明其他地方潜在的湍流或风暴。总之，研究反气旋风是气象学的一个重要部分，有助于我们理解天气系统及其更广泛的影响。通过认识到这些风的特征和影响，我们可以更好地为天气相关的挑战做好准备，并欣赏我们大气的复杂平衡。随着我们继续面对气候变化的现实，研究像反气旋风这样的风模式的重要性不容小觑。它们不仅塑造了我们的日常天气，还在我们星球的健康中发挥着关键作用。