aerological souding

简明释义

1. 大气探测; 2. 气象探测;

英英释义

例句

1.During the aerological sounding, the team measured temperature and humidity at various altitudes.

在气象探测过程中，团队在不同高度测量了温度和湿度。

2.Scientists use aerological sounding to study the stability of the atmosphere.

科学家使用气象探测来研究大气的稳定性。

3.An aerological sounding can help identify layers of inversion in the atmosphere.

一次气象探测可以帮助识别大气中的逆温层。

4.The meteorologist conducted an aerological sounding to gather data on atmospheric conditions.

气象学家进行了气象探测以收集大气条件的数据。

5.The results of the aerological sounding were crucial for predicting the storm's path.

这次气象探测的结果对于预测风暴路径至关重要。

作文

In the field of meteorology, understanding the atmosphere is crucial for predicting weather patterns and studying climate change. One of the key methods used in this scientific discipline is known as aerological sounding, which refers to the process of measuring various atmospheric parameters at different altitudes. This technique provides vital data that helps meteorologists analyze the vertical structure of the atmosphere, including temperature, humidity, and wind speed. By utilizing instruments such as weather balloons equipped with sensors, scientists can gather information that is essential for both short-term weather forecasting and long-term climate research.The importance of aerological sounding cannot be overstated. For instance, it allows researchers to observe how temperature changes with altitude, which is critical for understanding phenomena such as the formation of clouds and precipitation. Additionally, by measuring humidity levels at different heights, meteorologists can better predict severe weather events like thunderstorms or hurricanes. The data obtained from aerological sounding is not only valuable for forecasting but also plays a significant role in climate studies, helping scientists understand how the atmosphere behaves under varying conditions.Moreover, aerological sounding contributes to the development of numerical weather prediction models. These models rely on accurate data inputs to simulate atmospheric processes and forecast future weather conditions. When meteorologists perform aerological sounding, they collect real-time data that can be integrated into these models, enhancing their accuracy and reliability. This integration is particularly important during extreme weather events, where precise data can mean the difference between preparedness and disaster.In recent years, advancements in technology have further improved the methodology of aerological sounding. Modern weather balloons are now equipped with sophisticated GPS systems and digital sensors that provide high-resolution data. This technological evolution allows for more detailed analysis of atmospheric conditions and enhances our understanding of complex weather systems. Furthermore, satellite observations combined with aerological sounding data create a comprehensive picture of the atmosphere, leading to better predictive capabilities.Despite its many benefits, aerological sounding does face challenges. The process is time-consuming and requires specialized training to ensure accurate data collection. Additionally, there are limitations regarding the frequency of soundings in certain regions, particularly over oceans or remote areas, where access is difficult. However, ongoing research and collaboration among meteorologists worldwide aim to address these challenges and improve the overall effectiveness of aerological sounding.In conclusion, aerological sounding is an indispensable tool in meteorology that provides crucial insights into the atmospheric conditions affecting our planet. Its role in weather forecasting and climate research is paramount, enabling scientists to make informed predictions and understand the complexities of the atmosphere. As technology continues to evolve, the future of aerological sounding looks promising, with the potential for even greater advancements in our understanding of weather and climate dynamics.

在气象学领域，理解大气对于预测天气模式和研究气候变化至关重要。该科学学科中使用的一种关键方法被称为aerological sounding，它指的是在不同高度测量各种大气参数的过程。这项技术提供了重要的数据，帮助气象学家分析大气的垂直结构，包括温度、湿度和风速。通过利用配备传感器的气象气球，科学家可以收集对短期天气预报和长期气候研究至关重要的信息。aerological sounding的重要性不可低估。例如，它允许研究人员观察温度随高度变化的情况，这对理解云和降水的形成现象至关重要。此外，通过测量不同高度的湿度水平，气象学家可以更好地预测强烈天气事件，如雷暴或飓风。从aerological sounding获得的数据不仅对天气预报有价值，还在气候研究中发挥着重要作用，帮助科学家理解大气在不同条件下的行为。此外，aerological sounding还促进了数值天气预报模型的发展。这些模型依赖于准确的数据输入来模拟大气过程并预测未来的天气条件。当气象学家进行aerological sounding时，他们收集的实时数据可以整合到这些模型中，从而提高其准确性和可靠性。这种整合在极端天气事件期间尤其重要，精确的数据可能意味着准备和灾难之间的区别。近年来，技术的进步进一步改善了aerological sounding的方法。现代气象气球现在配备了先进的GPS系统和数字传感器，提供高分辨率的数据。这一技术演变使得对大气条件的分析更加详细，增强了我们对复杂天气系统的理解。此外，卫星观测与aerological sounding数据相结合，创造了大气的全面图景，从而提高了预测能力。尽管有许多好处，aerological sounding仍面临挑战。这个过程耗时且需要专业培训以确保数据收集的准确性。此外，在某些地区，特别是在海洋或偏远地区，关于声测的频率也存在限制，因为那里难以进入。然而，气象学家之间的持续研究和合作旨在解决这些挑战，提高aerological sounding的整体有效性。总之，aerological sounding是气象学中不可或缺的工具，为我们星球上影响大气条件提供了至关重要的见解。它在天气预报和气候研究中的作用至关重要，使科学家能够做出明智的预测，并理解大气的复杂性。随着技术的不断发展，aerological sounding的未来看起来很有希望，有望在我们对天气和气候动态的理解方面取得更大的进展。