areal rainfall depth

简明释义

地域平均雨量

英英释义

例句

1.The areal rainfall depth 区域降雨深度 helps in assessing the flood risk for the region.

通过区域降雨深度 areal rainfall depth可以评估该地区的洪水风险。

2.The city implemented a new drainage system based on predicted areal rainfall depth 区域降雨深度 during storms.

该市根据暴风雨期间预测的区域降雨深度 areal rainfall depth实施了新的排水系统。

3.Farmers rely on accurate predictions of areal rainfall depth 区域降雨深度 to plan their irrigation schedules.

农民依靠准确的区域降雨深度 areal rainfall depth预测来安排灌溉计划。

4.The meteorologist reported an average areal rainfall depth 区域降雨深度 of 30 millimeters over the past week.

气象学家报告过去一周的平均区域降雨深度 areal rainfall depth为30毫米。

5.Our study focused on the relationship between vegetation growth and areal rainfall depth 区域降雨深度.

我们的研究集中在植被生长与区域降雨深度 areal rainfall depth之间的关系上。

作文

The concept of areal rainfall depth is crucial in the fields of meteorology and hydrology. It refers to the total amount of rainfall measured over a specific area within a given time period, usually expressed in millimeters or inches. Understanding areal rainfall depth is essential for various applications, including agricultural planning, flood management, and water resource allocation.In agriculture, farmers rely heavily on accurate measurements of areal rainfall depth to make informed decisions about irrigation and crop management. For instance, if a region receives a substantial amount of rainfall, farmers may choose to reduce their irrigation efforts, conserving water resources. Conversely, during dry spells, knowing the areal rainfall depth can prompt farmers to implement irrigation strategies to ensure their crops receive adequate moisture.Moreover, in urban planning and development, understanding areal rainfall depth is vital for designing effective drainage systems. Heavy rainfall can lead to flooding, which poses risks to infrastructure and public safety. By analyzing historical data on areal rainfall depth, engineers can design systems that accommodate excess water flow, minimizing the risk of urban flooding.In the context of climate change, monitoring changes in areal rainfall depth over time becomes increasingly important. Scientists study patterns of rainfall distribution to understand how climate change affects precipitation trends. For example, an increase in the intensity and frequency of rainfall events can lead to higher areal rainfall depth, which may exacerbate flooding and soil erosion. By studying these trends, policymakers can develop strategies to mitigate the impacts of climate change on communities and ecosystems.Additionally, the relationship between areal rainfall depth and watershed management cannot be overlooked. Watersheds are areas of land that drain into a common water body, and understanding the rainfall depth across these areas helps in managing water resources effectively. Accurate data on areal rainfall depth allows for better predictions of river flow and reservoir levels, which are critical for water supply and conservation efforts.In conclusion, the term areal rainfall depth encompasses a significant aspect of environmental science that influences multiple sectors. From agriculture and urban planning to climate research and watershed management, understanding this concept is essential for sustainable development and resource management. As we continue to face challenges related to climate variability, the importance of accurately measuring and interpreting areal rainfall depth will only grow, highlighting the need for ongoing research and technological advancements in this field.

“区域降雨深度”的概念在气象学和水文学领域至关重要。它指的是在特定时间段内测量的某一特定区域的总降雨量，通常以毫米或英寸表示。理解“区域降雨深度”对于农业规划、洪水管理和水资源分配等多种应用至关重要。在农业中，农民非常依赖准确的“区域降雨深度”测量，以便做出明智的灌溉和作物管理决策。例如，如果一个地区降雨量相当可观，农民可能会选择减少灌溉工作，从而节约水资源。相反，在干旱时期，了解“区域降雨深度”可以促使农民实施灌溉策略，以确保作物获得足够的水分。此外，在城市规划和开发中，理解“区域降雨深度”对于设计有效的排水系统至关重要。强降雨可能导致洪水，这对基础设施和公共安全构成风险。通过分析历史数据中的“区域降雨深度”，工程师可以设计能够容纳过量水流的系统，从而降低城市洪水的风险。在气候变化的背景下，监测“区域降雨深度”随时间变化变得越来越重要。科学家研究降雨分布模式，以了解气候变化如何影响降水趋势。例如，降雨事件的强度和频率增加可能导致更高的“区域降雨深度”，这可能加剧洪水和土壤侵蚀。通过研究这些趋势，政策制定者可以制定策略，以减轻气候变化对社区和生态系统的影响。此外，“区域降雨深度”与流域管理之间的关系也不容忽视。流域是指排入共同水体的土地区域，了解这些区域的降雨深度有助于有效管理水资源。关于“区域降雨深度”的准确数据允许更好地预测河流流量和水库水位，这对水供应和保护工作至关重要。总之，术语“区域降雨深度”涵盖了环境科学的一个重要方面，影响多个领域。从农业和城市规划到气候研究和流域管理，理解这一概念对于可持续发展和资源管理至关重要。随着我们继续面临与气候变异相关的挑战，准确测量和解释“区域降雨深度”的重要性只会增加，突显出在这一领域持续研究和技术进步的必要性。