rainfall intensity

简明释义

降雨强度

英英释义

例句

1.The rainfall intensity 降雨强度 was measured at 50 mm per hour during the downpour.

在倾盆大雨中，降雨强度 降雨强度 测量为每小时50毫米。

2.Emergency services are on high alert due to the predicted rainfall intensity 降雨强度 this weekend.

由于预计本周末的 降雨强度 降雨强度，紧急服务处于高度警戒状态。

3.Farmers need to monitor the rainfall intensity 降雨强度 to manage irrigation effectively.

农民需要监测 降雨强度 降雨强度 以有效管理灌溉。

4.The meteorologist reported a high rainfall intensity 降雨强度 during the storm, leading to flash flooding.

气象学家报告称，在暴风雨期间，降雨强度 降雨强度 较高，导致了闪电洪水。

5.The city implemented a new drainage system to handle increased rainfall intensity 降雨强度 due to climate change.

由于气候变化，该城市实施了一项新的排水系统，以应对增加的 降雨强度 降雨强度。

作文

Rainfall is a crucial aspect of the Earth's hydrological cycle, influencing various environmental and human activities. One of the key factors that determine the impact of rainfall is its rainfall intensity, which refers to the rate at which rain falls over a specific period of time. Understanding rainfall intensity is essential for several reasons, including agriculture, urban planning, and disaster management. In this essay, I will explore the significance of rainfall intensity and its implications in different contexts.Firstly, in agriculture, rainfall intensity plays a vital role in crop production. Farmers rely on consistent and moderate rainfall to ensure their crops receive adequate moisture. When the rainfall intensity is too high, it can lead to soil erosion, nutrient leaching, and waterlogging, all of which can damage crops. Conversely, if the rainfall intensity is too low, crops may suffer from drought conditions, leading to reduced yields. Therefore, understanding the patterns and variations of rainfall intensity helps farmers make informed decisions about irrigation and crop management, ultimately enhancing food security.Secondly, urban planning must take into account rainfall intensity to mitigate flooding risks. In densely populated areas, high rainfall intensity events can overwhelm drainage systems, causing significant property damage and posing safety hazards. By analyzing historical data on rainfall intensity, city planners can design better infrastructure, such as improved drainage systems, green roofs, and permeable pavements, to manage stormwater effectively. This proactive approach not only protects communities but also promotes sustainable urban development.Moreover, rainfall intensity is a critical factor in disaster management and preparedness. Extreme weather events, such as hurricanes and heavy storms, often bring intense rainfall that can lead to flash floods. Emergency services need to monitor rainfall intensity closely to issue timely warnings and allocate resources efficiently during such events. By understanding the relationship between rainfall intensity and flood risk, authorities can develop effective response strategies to minimize loss of life and property.In addition to these practical applications, rainfall intensity also has implications for climate change studies. As global temperatures rise, changes in precipitation patterns are observed, with some regions experiencing increased rainfall intensity while others face prolonged dry spells. Researchers are studying these trends to predict future climate scenarios and assess their potential impacts on ecosystems and human societies. By understanding how rainfall intensity is affected by climate change, policymakers can implement measures to adapt to these changes and mitigate their effects.In conclusion, rainfall intensity is a significant factor that influences various aspects of life on Earth. From agriculture to urban planning and disaster management, understanding rainfall intensity helps us navigate the challenges posed by changing weather patterns. As we continue to face the impacts of climate change, the importance of monitoring and managing rainfall intensity will only grow. Therefore, it is essential for individuals, communities, and governments to prioritize research and education on this subject to ensure a resilient future.

降雨是地球水文循环的重要方面，影响着各种环境和人类活动。决定降雨影响的一个关键因素是其降雨强度，即在特定时间内降雨的速率。理解降雨强度对于农业、城市规划和灾害管理等多个方面至关重要。在这篇文章中，我将探讨降雨强度的重要性及其在不同背景下的影响。首先，在农业中，降雨强度在作物生产中发挥着至关重要的作用。农民依赖稳定和适度的降雨，以确保他们的作物获得足够的水分。当降雨强度过高时，会导致土壤侵蚀、养分流失和水涝，这些都会损害作物。相反，如果降雨强度过低，作物可能会遭受干旱，导致产量下降。因此，了解降雨强度的模式和变化有助于农民做出关于灌溉和作物管理的明智决策，从而增强粮食安全。其次，城市规划必须考虑到降雨强度以减轻洪水风险。在人口密集的地区，高降雨强度事件可能会使排水系统不堪重负，造成重大财产损失并构成安全隐患。通过分析降雨强度的历史数据，城市规划者可以设计更好的基础设施，如改进的排水系统、绿色屋顶和透水铺装，以有效管理雨水。这种前瞻性的方法不仅保护社区，还促进可持续城市发展。此外，降雨强度是灾害管理和应对准备中的关键因素。极端天气事件，如飓风和强暴风雨，通常带来强烈降雨，可能导致山洪暴发。紧急服务需要密切监测降雨强度，以便在此类事件中及时发出警报并高效分配资源。通过了解降雨强度与洪水风险之间的关系，相关部门可以制定有效的应对策略，以最大限度减少生命和财产损失。除了这些实际应用外，降雨强度在气候变化研究中也具有重要意义。随着全球气温上升，降水模式发生了变化，一些地区经历了增加的降雨强度，而其他地区则面临长期干旱。研究人员正在研究这些趋势，以预测未来的气候情景，并评估其对生态系统和人类社会的潜在影响。通过理解气候变化如何影响降雨强度，政策制定者可以实施措施以适应这些变化并减轻其影响。总之，降雨强度是影响地球上生活各个方面的重要因素。从农业到城市规划和灾害管理，理解降雨强度帮助我们应对气候变化带来的挑战。随着我们继续面对气候变化的影响，监测和管理降雨强度的重要性只会增加。因此，个人、社区和政府必须优先研究和教育这一主题，以确保未来的韧性。