tropical vortex

简明释义

热带涡漩

英英释义

例句

1.The researchers studied the effects of a tropical vortex on local ecosystems.

研究人员研究了热带涡旋对当地生态系统的影响。

2.Meteorologists are closely monitoring the developing tropical vortex for potential impacts on coastal areas.

气象学家正在密切监测正在发展的热带涡旋，以评估其对沿海地区的潜在影响。

3.Understanding the formation of a tropical vortex is crucial for predicting severe weather events.

理解热带涡旋的形成对于预测严重天气事件至关重要。

4.Residents were advised to prepare for possible evacuations due to the approaching tropical vortex.

由于即将到来的热带涡旋，居民被建议做好可能撤离的准备。

5.The tropical vortex can lead to heavy rainfall and strong winds in the region.

该热带涡旋可能会导致该地区出现大雨和强风。

作文

The term tropical vortex refers to a weather phenomenon characterized by a rotating column of air that forms over warm ocean waters in tropical regions. This natural occurrence plays a significant role in the formation of tropical cyclones, which can lead to severe weather conditions such as hurricanes and typhoons. Understanding the mechanics behind a tropical vortex is essential for meteorologists and climate scientists, as it helps them predict and prepare for extreme weather events that can impact coastal communities. A tropical vortex typically develops when warm, moist air rises from the ocean surface, creating an area of low pressure. As the air ascends, it cools and condenses, forming clouds and releasing latent heat, which further fuels the system. The rotation of the Earth causes this rising air to spin, and if conditions are favorable, the tropical vortex can intensify into a full-fledged tropical storm. One of the most critical aspects of a tropical vortex is its ability to gather energy from the ocean. The warmer the water, the more energy is available to the system, which can lead to rapid strengthening of the storm. For instance, when a tropical vortex moves over sea surface temperatures exceeding 26 degrees Celsius (about 79 degrees Fahrenheit), it can quickly develop into a hurricane. This phenomenon is particularly concerning as climate change continues to raise ocean temperatures, potentially leading to more frequent and intense tropical storms. Meteorologists utilize advanced satellite technology and computer models to monitor tropical vortices and predict their paths. These predictions are crucial for issuing timely warnings to communities in the potential path of a storm. When a tropical vortex is detected, meteorologists analyze various factors, including wind shear, humidity levels, and sea surface temperatures, to assess the likelihood of the system developing into a more dangerous storm. The impact of a tropical vortex can be devastating. When these systems make landfall, they can bring heavy rainfall, strong winds, and storm surges that lead to flooding and destruction. Coastal cities are particularly vulnerable, as the combination of high winds and rising water can overwhelm infrastructure and lead to loss of life. Therefore, understanding the dynamics of a tropical vortex is not only important for scientific research but also for public safety and disaster preparedness. In conclusion, the tropical vortex is a vital component of our planet's weather systems, particularly in tropical regions. Its ability to form and strengthen under certain conditions makes it a key area of study for meteorologists. As we continue to face the challenges posed by climate change, enhancing our understanding of tropical vortices will be crucial in mitigating their impacts on society. By investing in research and improving forecasting techniques, we can better protect vulnerable communities from the destructive forces of nature. In summary, the study of the tropical vortex not only deepens our understanding of atmospheric science but also emphasizes the need for preparedness and resilience in the face of natural disasters. By recognizing the significance of these weather phenomena, we can work towards a safer future for all.

“热带涡旋”一词指的是一种气象现象，特征是形成在热带地区温暖海洋水面上的旋转气流柱。这种自然现象在热带气旋的形成中起着重要作用，可能导致严重的气象条件，如飓风和台风。理解“热带涡旋”的机制对于气象学家和气候科学家至关重要，因为这有助于他们预测和准备影响沿海社区的极端天气事件。“热带涡旋”通常在温暖潮湿的空气从海洋表面上升时发展，形成一个低压区域。当空气上升时，它会冷却并凝结，形成云并释放潜热，这进一步为系统提供能量。“热带涡旋”的旋转是由于地球的自转，如果条件有利，热带涡旋可以加强成一个完整的热带风暴。“热带涡旋”的一个关键方面是它从海洋中获取能量的能力。水越暖，系统可用的能量就越多，这可能导致风暴迅速增强。例如，当一个“热带涡旋”移动到海面温度超过26摄氏度（约79华氏度）时，它可以迅速发展为飓风。这种现象尤其令人担忧，因为气候变化继续提高海洋温度，可能导致更频繁和更强烈的热带风暴。气象学家利用先进的卫星技术和计算机模型来监测“热带涡旋”，并预测其路径。这些预测对于向潜在受影响社区发出及时警报至关重要。当检测到“热带涡旋”时，气象学家分析各种因素，包括风切变、湿度水平和海面温度，以评估该系统发展为更危险风暴的可能性。“热带涡旋”的影响可能是毁灭性的。当这些系统登陆时，它们可能带来强降雨、强风和风暴潮，导致洪水和破坏。沿海城市特别脆弱，因为高风和上涨的水结合可能会压倒基础设施并导致生命损失。因此，理解“热带涡旋”的动态不仅对科学研究重要，也对公众安全和灾难准备至关重要。总之，“热带涡旋”是我们星球气象系统的一个重要组成部分，特别是在热带地区。它在某些条件下形成和增强的能力使其成为气象学家的关键研究领域。随着我们继续面临气候变化带来的挑战，增强对“热带涡旋”的理解对于减轻其对社会的影响至关重要。通过投资研究和改善预测技术，我们可以更好地保护易受影响的社区免受自然力量的破坏。总之，“热带涡旋”的研究不仅加深了我们对大气科学的理解，也强调了在面对自然灾害时准备和韧性的必要性。通过认识到这些气象现象的重要性，我们可以朝着为所有人创造一个更安全的未来而努力。