atmospheric turbidity

简明释义

大气混浊度

英英释义

例句

1.The weather station reported high atmospheric turbidity 大气浑浊度, indicating that visibility would be poor today.

气象站报告称，今天的大气浑浊度 atmospheric turbidity很高，这意味着能见度会很差。

2.Researchers are studying the effects of atmospheric turbidity 大气浑浊度 on solar energy efficiency.

研究人员正在研究大气浑浊度 atmospheric turbidity对太阳能效率的影响。

3.Satellite images can help in measuring atmospheric turbidity 大气浑浊度 over large areas.

卫星图像可以帮助测量大范围内的大气浑浊度 atmospheric turbidity。

4.High levels of atmospheric turbidity 大气浑浊度 can lead to inaccurate weather predictions.

高水平的大气浑浊度 atmospheric turbidity可能导致天气预报不准确。

5.During the dry season, atmospheric turbidity 大气浑浊度 tends to increase due to dust storms.

在干季，由于沙尘暴的影响，大气浑浊度 atmospheric turbidity往往会增加。

作文

Atmospheric conditions play a crucial role in determining the clarity of our skies and the overall quality of the air we breathe. One significant factor that affects these conditions is atmospheric turbidity, which refers to the presence of particles, such as dust, smoke, and water droplets, suspended in the atmosphere. These particles scatter and absorb sunlight, leading to a decrease in visibility and altering the color of the sky. Understanding atmospheric turbidity is essential for various fields, including meteorology, environmental science, and even photography.The measurement of atmospheric turbidity is vital for assessing air quality and its impact on human health. High levels of turbidity can indicate pollution from industrial activities, vehicle emissions, or natural events like wildfires. When the air is laden with particulate matter, it can lead to respiratory problems, cardiovascular diseases, and other health issues among the population. Therefore, monitoring atmospheric turbidity can help policymakers implement regulations to improve air quality and protect public health.Moreover, atmospheric turbidity significantly influences weather patterns and climate change. Increased turbidity can affect solar radiation reaching the Earth's surface, impacting temperature and precipitation patterns. For instance, regions with high turbidity may experience cooler temperatures during the day due to reduced sunlight. Conversely, at night, these areas might retain heat, leading to warmer nighttime temperatures. Understanding these dynamics is crucial for predicting weather changes and preparing for extreme weather events.In addition to its environmental implications, atmospheric turbidity also has aesthetic effects. Photographers and artists often consider atmospheric conditions when capturing landscapes or cityscapes. The presence of turbidity can enhance the colors of a sunset or create a mystical atmosphere in photographs. However, excessive turbidity can obscure distant views and diminish the beauty of natural landscapes. Thus, understanding how atmospheric turbidity affects visibility can help artists and photographers plan their work more effectively.To mitigate the effects of atmospheric turbidity, various strategies can be employed. Reducing emissions from vehicles and industries is one of the most effective ways to decrease particulate matter in the air. Additionally, reforestation and the preservation of green spaces can help absorb pollutants and improve air quality. Public awareness campaigns can also educate individuals about the importance of reducing their carbon footprint and participating in community efforts to clean the air.In conclusion, atmospheric turbidity is a critical concept that encompasses the quality of our air and the clarity of our skies. Its implications extend beyond environmental concerns to human health, weather patterns, and artistic expression. By understanding and addressing the factors contributing to atmospheric turbidity, we can work towards a healthier planet and a clearer future for generations to come.

大气条件在决定我们天空的清晰度和我们呼吸的空气质量方面起着至关重要的作用。一个显著的因素是大气浑浊度，它指的是悬浮在大气中的颗粒物，如灰尘、烟雾和水滴。这些颗粒会散射和吸收阳光，导致能见度降低并改变天空的颜色。理解大气浑浊度对于气象学、环境科学甚至摄影等多个领域都是至关重要的。测量大气浑浊度对于评估空气质量及其对人类健康的影响至关重要。高水平的浑浊度可能表明工业活动、车辆排放或自然事件（如野火）造成的污染。当空气中充满颗粒物时，可能导致呼吸问题、心血管疾病以及其他健康问题。因此，监测大气浑浊度可以帮助政策制定者实施法规，以改善空气质量并保护公众健康。此外，大气浑浊度对天气模式和气候变化有着显著影响。增加的浑浊度会影响到达到地球表面的太阳辐射，从而影响温度和降水模式。例如，浑浊度高的地区白天由于阳光减少可能会经历较低的温度。相反，在夜间，这些地区可能会保留热量，导致夜间温度升高。理解这些动态对于预测天气变化和准备极端天气事件至关重要。除了环境影响外，大气浑浊度也对美学产生影响。摄影师和艺术家在拍摄风景或城市风光时通常会考虑大气条件。浑浊度的存在可以增强日落的颜色或在照片中创造神秘的氛围。然而，过度的浑浊度可能会遮蔽远处的景观，削弱自然风光的美丽。因此，了解大气浑浊度如何影响能见度可以帮助艺术家和摄影师更有效地规划他们的作品。为了减轻大气浑浊度的影响，可以采取多种策略。减少车辆和工业的排放是降低空气中颗粒物的最有效方法之一。此外，重新造林和保护绿地可以帮助吸收污染物并改善空气质量。公共意识运动也可以教育个人了解减少碳足迹的重要性，并参与社区清洁空气的努力。总之，大气浑浊度是一个关键概念，涵盖了我们空气的质量和天空的清晰度。它的影响超越了环境问题，涉及人类健康、天气模式和艺术表现。通过理解和解决导致大气浑浊度的因素，我们可以朝着一个更健康的星球和为后代创造一个更清晰的未来而努力。