allobaric wind
简明释义
变压风
英英释义
例句
1.The meteorologist explained how the allobaric wind 异压风 can influence local weather patterns.
气象学家解释了如何通过异压风 allobaric wind 影响当地天气模式。
2.During the storm, we observed strong allobaric winds 异压风 that caused significant changes in temperature.
在暴风雨期间,我们观察到强烈的异压风 allobaric winds,导致温度发生显著变化。
3.The forecast predicted an increase in allobaric winds 异压风 over the weekend, leading to cooler temperatures.
预报预测周末异压风 allobaric winds 会增加,从而导致气温下降。
4.Researchers are studying the impact of allobaric winds 异压风 on migratory bird patterns.
研究人员正在研究异压风 allobaric winds 对候鸟迁徙模式的影响。
5.The allobaric wind 异压风 created unusual cloud formations in the sky.
这股异压风 allobaric wind 在天空中形成了不寻常的云层。
作文
The term allobaric wind refers to a specific type of wind that is generated due to changes in atmospheric pressure. Unlike the more common winds that are driven by temperature differences, allobaric wind is influenced by variations in pressure gradients. This phenomenon can occur when a high-pressure area moves into a region previously dominated by low pressure, causing the air to flow from the high-pressure zone to the low-pressure zone. Understanding allobaric wind is crucial for meteorologists and anyone interested in weather patterns, as it plays a significant role in local and regional climate conditions.One of the primary characteristics of allobaric wind is its ability to affect weather systems rapidly. For instance, when a cold front approaches, the pressure drops in advance of the front, creating a significant pressure difference with the surrounding areas. As a result, winds can shift dramatically, leading to sudden changes in weather, including storms or clear skies. This aspect of allobaric wind makes it an essential factor in forecasting and understanding severe weather events.Moreover, allobaric wind can also influence local topography. In mountainous regions, for example, the interaction between the wind and the terrain can lead to unique weather phenomena such as rain shadows or localized storms. The winds can be funneled through valleys, intensifying their speed and potentially leading to hazardous conditions. Thus, recognizing the implications of allobaric wind in these contexts helps in better preparing for and mitigating the impacts of extreme weather.In addition to its meteorological significance, allobaric wind has practical applications in various fields. For instance, in aviation, understanding how these winds behave can help pilots navigate more safely and efficiently, especially during takeoff and landing phases. Similarly, in agriculture, farmers can use information about allobaric wind patterns to make informed decisions regarding planting and harvesting times, ultimately enhancing crop yields.Furthermore, the study of allobaric wind is not limited to immediate weather effects. It also plays a role in broader climatic studies, as shifts in wind patterns can indicate larger changes in global climate systems. For example, scientists monitor these winds to understand their contribution to phenomena such as El Niño and La Niña, which have far-reaching effects on global weather patterns. By examining the behavior of allobaric wind, researchers can gain insights into the complexities of climate change and its potential impacts on our planet.In conclusion, the concept of allobaric wind is integral to the field of meteorology and has far-reaching implications for weather forecasting, aviation, agriculture, and climate research. By understanding how these winds operate and their effects on both local and global scales, we can better prepare for and respond to the challenges posed by changing weather patterns and climate dynamics. As our understanding of allobaric wind continues to evolve, it will undoubtedly play a critical role in shaping our approach to weather-related issues in the future.
术语allobaric wind指的是由于大气压力变化而产生的一种特定类型的风。与由温度差驱动的更常见的风不同,allobaric wind受到压力梯度变化的影响。当高压区域移入之前由低压主导的区域时,就会发生这种现象,导致空气从高压区流向低压区。理解allobaric wind对气象学家和任何对天气模式感兴趣的人来说都是至关重要的,因为它在地方和区域气候条件中发挥着重要作用。allobaric wind的一个主要特征是它能够迅速影响天气系统。例如,当冷锋接近时,锋前的压力下降,导致与周围地区之间的压力差显著增加。因此,风可以急剧转变,导致天气的突然变化,包括暴风雨或晴天。这一方面使得allobaric wind成为天气预报和理解极端天气事件的重要因素。此外,allobaric wind还可以影响当地地形。例如,在山区,风与地形的相互作用可能导致独特的天气现象,如雨影或局部风暴。风可以通过山谷被引导,从而加速其速度,并可能导致危险的条件。因此,在这些背景下认识到allobaric wind的影响有助于更好地准备和减轻极端天气的影响。除了气象学上的重要性,allobaric wind在各个领域也具有实际应用。例如,在航空领域,了解这些风的行为可以帮助飞行员在起飞和降落阶段更安全、更高效地导航。同样,在农业中,农民可以利用有关allobaric wind模式的信息来做出关于种植和收获时间的明智决策,从而提高作物产量。此外,allobaric wind的研究并不限于即时天气影响。它还在更广泛的气候研究中发挥着作用,因为风模式的变化可能表明全球气候系统的更大变化。例如,科学家监测这些风以了解它们对厄尔尼诺和拉尼娜等现象的贡献,这些现象对全球天气模式有深远的影响。通过研究allobaric wind的行为,研究人员可以深入了解气候变化的复杂性及其对我们星球潜在影响。总之,allobaric wind的概念对于气象学领域至关重要,对天气预报、航空、农业和气候研究具有深远的影响。通过理解这些风的运作方式及其对地方和全球范围的影响,我们可以更好地为应对天气模式变化和气候动态所带来的挑战做好准备。随着我们对allobaric wind的理解不断发展,它无疑将在塑造我们未来应对天气相关问题的方法中发挥关键作用。
