atmospheric vapour
简明释义
大气干扰
英英释义
Atmospheric vapour refers to the gaseous water present in the atmosphere, which can exist in various forms such as water vapor, steam, and humidity. | 大气蒸汽是指存在于大气中的气态水,可以以水蒸气、蒸汽和湿度等多种形式存在。 |
例句
1.High levels of atmospheric vapour 大气水蒸气 can lead to the formation of clouds and precipitation.
高水平的大气水蒸气 atmospheric vapour 可以导致云和降水的形成。
2.The weather forecast predicts an increase in atmospheric vapour 大气水蒸气, leading to higher humidity levels.
天气预报预测,大气水蒸气 atmospheric vapour 的增加将导致湿度水平升高。
3.Meteorologists use satellite data to monitor atmospheric vapour 大气水蒸气 content in the atmosphere.
气象学家使用卫星数据监测大气中的大气水蒸气 atmospheric vapour 含量。
4.Scientists study the role of atmospheric vapour 大气水蒸气 in climate change to understand its impact on global temperatures.
科学家研究大气水蒸气 atmospheric vapour 在气候变化中的作用,以了解其对全球温度的影响。
5.The presence of atmospheric vapour 大气水蒸气 is crucial for the water cycle and weather patterns.
存在于大气水蒸气 atmospheric vapour 对水循环和天气模式至关重要。
作文
The Earth's atmosphere is a complex system that plays a crucial role in sustaining life on our planet. One of the key components of this system is atmospheric vapour(大气水蒸气). This term refers to the water vapor present in the air, which is an essential element in various meteorological phenomena and processes. Understanding atmospheric vapour(大气水蒸气) is vital for comprehending weather patterns, climate change, and the water cycle.Firstly, atmospheric vapour(大气水蒸气) contributes significantly to the greenhouse effect. It acts as a natural greenhouse gas, trapping heat in the atmosphere and maintaining the Earth's temperature at a level conducive to life. Without sufficient atmospheric vapour(大气水蒸气), our planet would be too cold for most forms of life to survive. The balance of atmospheric vapour(大气水蒸气) is, therefore, critical; excessive amounts can lead to global warming, while insufficient moisture can result in droughts and other adverse weather conditions.Moreover, atmospheric vapour(大气水蒸气) plays a central role in the water cycle. It evaporates from oceans, rivers, and lakes, rising into the atmosphere where it cools and condenses into clouds. Eventually, this moisture falls back to the Earth as precipitation, replenishing water sources and supporting ecosystems. This continuous cycle highlights the importance of atmospheric vapour(大气水蒸气) in maintaining ecological balance and ensuring that freshwater resources are available for all living organisms.In addition to its role in climate and the water cycle, atmospheric vapour(大气水蒸气) also affects weather patterns. High humidity levels, which indicate a higher concentration of atmospheric vapour(大气水蒸气) in the air, can lead to the formation of storms and heavy rainfall. Conversely, low humidity can result in clear skies and dry conditions. Meteorologists closely monitor atmospheric vapour(大气水蒸气) levels to predict weather changes and prepare for extreme weather events, such as hurricanes and floods.Furthermore, the study of atmospheric vapour(大气水蒸气) is crucial in understanding climate change. As global temperatures rise due to human activities, the capacity of the atmosphere to hold moisture increases, leading to more intense storms and altered precipitation patterns. This feedback loop can exacerbate existing climate issues, making it imperative for scientists to study and model atmospheric vapour(大气水蒸气) dynamics to develop effective strategies for mitigating climate change impacts.In conclusion, atmospheric vapour(大气水蒸气) is a fundamental component of our atmosphere that influences weather, climate, and the water cycle. Its presence is essential for life, as it regulates temperature and supports ecosystems through the water cycle. Understanding atmospheric vapour(大气水蒸气) is not only important for meteorology but also for addressing the challenges posed by climate change. As we continue to explore the complexities of our atmosphere, the role of atmospheric vapour(大气水蒸气) will undoubtedly remain a critical area of study for scientists and environmentalists alike.
地球的大气层是一个复杂的系统,在维持我们星球上的生命方面发挥着至关重要的作用。这个系统的一个关键组成部分是大气水蒸气(atmospheric vapour)。这个术语指的是存在于空气中的水蒸气,它是各种气象现象和过程中的一个重要元素。理解大气水蒸气(atmospheric vapour)对于理解天气模式、气候变化和水循环至关重要。首先,大气水蒸气(atmospheric vapour)对温室效应有显著贡献。它作为一种自然的温室气体,捕获大气中的热量,使地球的温度保持在适合生命的水平。如果没有足够的大气水蒸气(atmospheric vapour),我们的星球将过于寒冷,无法支持大多数生命形式。因此,大气水蒸气(atmospheric vapour)的平衡至关重要;过量会导致全球变暖,而不足则会导致干旱和其他不利的天气条件。此外,大气水蒸气(atmospheric vapour)在水循环中扮演着核心角色。它从海洋、河流和湖泊中蒸发,升入大气,在那里冷却并凝结成云。最终,这些水分以降水的形式回落到地球上,补充水源并支持生态系统。这个持续的循环突显了大气水蒸气(atmospheric vapour)在维持生态平衡和确保所有生物可获得淡水资源方面的重要性。除了在气候和水循环中的作用外,大气水蒸气(atmospheric vapour)还影响天气模式。高湿度水平,表示空气中大气水蒸气(atmospheric vapour)的浓度较高,可能导致风暴和强降雨的形成。相反,低湿度可能导致晴朗的天空和干燥的条件。气象学家密切监测大气水蒸气(atmospheric vapour)水平,以预测天气变化并为极端天气事件(如飓风和洪水)做好准备。此外,研究大气水蒸气(atmospheric vapour)对于理解气候变化至关重要。随着全球温度因人类活动而上升,大气中保持水分的能力增加,导致更强烈的风暴和改变的降水模式。这个反馈循环可能加剧现有的气候问题,因此科学家们必须研究和建模大气水蒸气(atmospheric vapour)的动态,以制定有效的策略来减轻气候变化的影响。总之,大气水蒸气(atmospheric vapour)是我们大气的基本组成部分,影响着天气、气候和水循环。它的存在对于生命至关重要,因为它调节温度并通过水循环支持生态系统。理解大气水蒸气(atmospheric vapour)不仅对气象学重要,而且对应对气候变化带来的挑战至关重要。随着我们继续探索大气的复杂性,大气水蒸气(atmospheric vapour)的作用无疑将继续成为科学家和环保主义者研究的重要领域。
相关单词
