hyetograph
简明释义
英[ˈhaɪɪtəˌɡrɑːf]美[ˈhaɪɪtəɡræf]
n. 雨量分布图;雨量计
英英释义
单词用法
累积降水图 | |
降水图分析 | |
绘制降水图 | |
解释降水图 |
同义词
| 降雨图 | The rainfall graph shows the distribution of rain over the past week. | 降雨图显示了过去一周的降雨分布。 | |
| 降水图表 | Meteorologists often analyze precipitation charts to predict flood risks. | 气象学家经常分析降水图表以预测洪水风险。 |
反义词
| 水文图 | 水文图显示了水流随时间的变化。 | ||
| 蒸散发图 | Evapotranspiration graphs help in understanding water loss from soil. | 蒸散发图有助于理解土壤中的水分损失。 |
例句
1.Construct the 90% cumulative probability hyetograph product of typhoon into the "typhoon Rainfall Decision Support System".
新增气候法90%累积机率降雨推估产品。
2.Design storm hyetograph is the essential element for hydrologic modeling analysis and storm water drainage design.
设计暴雨雨型对水文模式分析与暴雨排水设计是不可或缺的基本要素。
3.Construct the 90% cumulative probability hyetograph product of typhoon into the "typhoon Rainfall Decision Support System".
新增气候法90%累积机率降雨推估产品。
4.A detailed hyetograph helps farmers decide the best time for irrigation.
详细的hyetograph帮助农民决定最佳灌溉时间。
5.The meteorologist presented the hyetograph to illustrate the rainfall patterns over the past month.
气象学家展示了hyetograph以说明过去一个月的降雨模式。
6.The research paper included a hyetograph showing the impact of climate change on precipitation.
研究论文中包含了一张hyetograph,显示气候变化对降水的影响。
7.The city planners used the hyetograph data to design better drainage systems.
城市规划者使用hyetograph数据来设计更好的排水系统。
8.By analyzing the hyetograph, we can predict future flooding risks in the area.
通过分析hyetograph,我们可以预测该地区未来的洪水风险。
作文
Understanding the concept of a hyetograph is essential for anyone involved in hydrology, meteorology, or environmental science. A hyetograph is a graphical representation that shows the distribution of rainfall over a specified period of time. It typically consists of a bar graph where the x-axis represents time intervals and the y-axis represents the amount of precipitation that falls during each interval. This tool is invaluable for analyzing rainfall patterns, predicting floods, and managing water resources effectively.One of the primary uses of a hyetograph is to help engineers and planners design drainage systems. By understanding how much rain falls and when, they can create systems that effectively manage stormwater runoff, reducing the risk of flooding in urban areas. For instance, if a city experiences heavy rainfall over a short period, a well-designed drainage system informed by accurate hyetographs can prevent water from accumulating on streets and causing damage to infrastructure.Moreover, hyetographs play a crucial role in agriculture. Farmers rely on accurate rainfall data to make informed decisions about planting and irrigation. By studying hyetographs, they can determine the best times to sow seeds and when to irrigate their crops. This not only helps in maximizing crop yields but also conserves water, which is becoming increasingly important in many regions facing drought conditions.In addition to practical applications, hyetographs also contribute to scientific research. Meteorologists analyze these graphs to understand climate trends and changes in precipitation patterns over time. For example, a significant increase in rainfall during certain seasons may indicate shifts in climate that could affect ecosystems and biodiversity. By studying historical hyetographs, scientists can identify long-term trends and make predictions about future weather patterns, which is vital for disaster preparedness.Furthermore, the importance of hyetographs extends to environmental management. Understanding rainfall distribution helps in managing watersheds and preserving natural habitats. Conservationists use hyetographs to assess the impact of rainfall on local ecosystems, ensuring that water bodies remain healthy and sustainable. This information is critical for maintaining biodiversity and protecting endangered species that rely on specific water conditions.In conclusion, the hyetograph is a powerful tool that provides valuable insights into rainfall patterns and their implications for various fields. Its applications in engineering, agriculture, scientific research, and environmental management demonstrate its versatility and importance. As we continue to face challenges related to climate change and water scarcity, the ability to accurately analyze and interpret hyetographs will become even more crucial. By investing in the study and understanding of this graphical representation, we can better prepare for the future and ensure a sustainable relationship with our planet's water resources.
理解hyetograph这一概念对任何参与水文学、气象学或环境科学的人来说都是至关重要的。hyetograph是一种图形表示,显示在特定时间段内降雨的分布。它通常由一个柱状图组成,其中x轴表示时间间隔,y轴表示在每个间隔内降水的量。这个工具对于分析降雨模式、预测洪水以及有效管理水资源是不可或缺的。hyetograph的主要用途之一是帮助工程师和规划者设计排水系统。通过了解降雨量及其发生时间,他们可以创建有效管理暴雨径流的系统,从而降低城市地区洪水的风险。例如,如果一座城市在短时间内经历了大雨,基于准确的hyetographs设计的良好排水系统可以防止水在街道上积聚并造成基础设施损坏。此外,hyetographs在农业中也起着至关重要的作用。农民依靠准确的降雨数据做出关于播种和灌溉的明智决策。通过研究hyetographs,他们可以确定最佳的播种时间和灌溉时机。这不仅有助于最大化作物产量,还能节约水资源,这在许多面临干旱条件的地区变得越来越重要。除了实际应用外,hyetographs还为科学研究做出了贡献。气象学家分析这些图表,以了解气候趋势和降水模式随时间的变化。例如,某些季节降雨量的显著增加可能表明气候的变化,这可能影响生态系统和生物多样性。通过研究历史hyetographs,科学家可以识别长期趋势并预测未来的天气模式,这对灾害准备至关重要。此外,hyetographs的重要性还扩展到环境管理。了解降雨分布有助于管理流域和保护自然栖息地。保护主义者利用hyetographs评估降雨对当地生态系统的影响,确保水体保持健康和可持续。这些信息对于维护生物多样性和保护依赖特定水条件的濒危物种至关重要。总之,hyetograph是一种强大的工具,提供有关降雨模式及其对各个领域影响的宝贵见解。它在工程、农业、科学研究和环境管理中的应用展示了其多功能性和重要性。随着我们继续面临与气候变化和水资源短缺相关的挑战,准确分析和解释hyetographs的能力将变得更加重要。通过投资于对这种图形表示的研究和理解,我们可以更好地为未来做好准备,并确保与我们星球水资源的可持续关系。
