recurvature of storm

简明释义

风暴移动轨迹的转向点

英英释义

例句

1.Understanding the recurvature of storm can help in better disaster preparedness.

了解风暴的再曲率可以帮助更好地做好灾难准备。

2.Residents were warned about the potential recurvature of storm that could bring heavy rains to the coast.

居民们被警告可能会出现风暴的再曲率，这可能会给海岸带来大雨。

3.The meteorologist explained the significance of the recurvature of storm in predicting its path.

气象学家解释了风暴的再曲率在预测其路径中的重要性。

4.The recurvature of storm is often a critical factor in hurricane forecasting.

在飓风预报中，风暴的再曲率通常是一个关键因素。

5.During the briefing, the team discussed how the recurvature of storm might affect their evacuation plans.

在简报中，团队讨论了风暴的再曲率可能对他们的撤离计划产生的影响。

作文

The phenomenon of the recurvature of storm has gained significant attention in meteorological studies, especially in understanding how storms behave as they travel across various terrains and climatic conditions. This term refers to the process where a storm, particularly tropical cyclones or hurricanes, begins to change its path and curve back towards the direction from which it came. This behavior can have critical implications for weather forecasting, disaster preparedness, and environmental studies.When a storm forms over warm ocean waters, it typically moves in a westward direction due to prevailing winds. However, as it interacts with land masses or cooler waters, the dynamics of the storm can shift dramatically. The recurvature of storm often occurs when the storm encounters a high-pressure system or changes in the atmospheric currents that influence its trajectory. Understanding this process is crucial for meteorologists who strive to predict the path of such storms accurately.For instance, the recurvature of storm can lead to unexpected impacts on coastal regions that may not have initially been in the projected path of the storm. As the storm curves back towards land, areas that were previously considered safe can suddenly face severe weather conditions, including strong winds, heavy rainfall, and storm surges. This unpredictability highlights the importance of continuous monitoring and advanced modeling techniques in meteorology.Moreover, the recurvature of storm can also affect the intensity of the storm. When a storm recurs, it can gain energy from warm ocean waters, potentially increasing its strength as it approaches land. This phenomenon was observed during several notable hurricanes, where storms that were expected to weaken instead intensified due to favorable conditions created by their recurving paths.In addition to immediate weather impacts, the recurvature of storm has broader implications for climate change research. As global temperatures rise, the patterns of storm formation and movement are likely to change, leading to more frequent and intense storms. Researchers are increasingly focused on how these changes will affect coastal communities, ecosystems, and infrastructure. Understanding the mechanics behind the recurvature of storm is essential for developing effective strategies to mitigate the risks associated with severe weather events.In conclusion, the recurvature of storm is a complex meteorological phenomenon that plays a crucial role in the behavior of tropical cyclones and hurricanes. Its implications extend beyond immediate weather forecasts, affecting disaster preparedness, climate change research, and the safety of coastal populations. As our understanding of this phenomenon improves, so too does our ability to respond effectively to the challenges posed by an increasingly volatile climate. Meteorologists and researchers must continue to study the factors that contribute to the recurvature of storm to enhance predictive models and safeguard communities at risk from these powerful natural events.

风暴的回曲现象在气象研究中引起了广泛关注，尤其是在理解风暴在不同地形和气候条件下的行为时。这个术语指的是一种风暴，特别是热带气旋或飓风，开始改变其路径并向其来时的方向弯曲的过程。这种行为对天气预报、灾害准备和环境研究具有重要影响。当风暴在温暖的海洋水域形成时，它通常会由于盛行风向而向西移动。然而，当它与陆地或较冷的水域相互作用时，风暴的动态可能会发生剧烈变化。风暴的回曲现象通常发生在风暴遭遇高压系统或大气环流变化影响其轨迹时。理解这一过程对努力准确预测此类风暴路径的气象学家至关重要。例如，风暴的回曲现象可能导致对沿海地区的意外影响，这些地区最初可能不在风暴的预计路径内。当风暴向陆地弯曲时，之前被认为安全的地区可能会突然面临严峻的天气条件，包括强风、暴雨和风暴潮。这种不可预测性突显了气象学中持续监测和先进建模技术的重要性。此外，风暴的回曲现象也可能影响风暴的强度。当风暴回曲时，它可以从温暖的海洋水域获取能量，可能在接近陆地时增强其强度。这一现象在几次显著的飓风中得到了验证，这些风暴原本预期会减弱，但由于回曲路径所创造的有利条件而反而加强。除了直接的天气影响，风暴的回曲现象对气候变化研究也有更广泛的影响。随着全球气温上升，风暴形成和移动的模式可能会发生变化，从而导致风暴更加频繁和强烈。研究人员越来越关注这些变化将如何影响沿海社区、生态系统和基础设施。理解风暴的回曲现象的机制对于制定有效的策略以减轻与严重天气事件相关的风险至关重要。总之，风暴的回曲现象是一个复杂的气象现象，在热带气旋和飓风的行为中发挥着关键作用。其影响超出了即时天气预报，影响灾害准备、气候变化研究以及沿海人口的安全。随着我们对这一现象的理解不断加深，我们应对气候日益不稳定带来的挑战的能力也会提高。气象学家和研究人员必须继续研究影响风暴回曲现象的因素，以增强预测模型并保护面临这些强大自然事件风险的社区。