hydrological

简明释义

英[,haɪdrə'lɒdʒɪkəl]美[ˌhaɪdrəˈlɑːdʒɪkəl]

adj. 水文学的

英英释义

单词用法

同义词

反义词

例句

1.The hydrological simulation based on DEM has become one of the hot topics of hydrological model.

基于DEM的流域水文模拟已成为近年来流域水文模型的热点之一。

2.Hydrological characteristics, such as water level and water flow, are significant factors influencing macrophytes.

水位、水流等水文特征是影响水生植物的重要因素。

3.The theme addresses the role of forests and trees outside forests to help moderate soil, hydrological and aquatic systems.

本主题处理森林及森林外树木帮助调节土壤、水文以及水生系统的作用。

4.But it should reinforce the point that, on hydrological grounds alone, conserving forest is often essential.

不过仍然应该强调这一点：就算只为了保存水份，保护森林仍然是必要的。

5.Through this application, you can view dozens of hydrological stations, the Pearl River estuary hydrological information and data in real time.

通过这个应用程序，您可以随时查看珠江口十几个水文站点的实时水文信息数据。

6.South Korea is building other hydrological systems to mitigate such a release, but they won't be ready until next year.

韩国正在修建水利系统来缓解类似这样的开闸放水行动，但要到明年才能完成。

7.It does some appliance research in hydrological simulation in data scarce region in the northwest of China.

试图在中国西北资料稀缺地区的水文模拟方法上做一些应用性的探讨。

8.Changes in hydrological 水文的 patterns due to climate change can significantly affect agriculture.

由于气候变化导致的水文的模式变化可能会显著影响农业。

9.The hydrological 水文的 data collected from the river helps in predicting flood risks.

从河流收集的水文的数据有助于预测洪水风险。

10.The hydrological 水文的 model simulates the movement of water through the ecosystem.

该水文的模型模拟了水在生态系统中的运动。

11.Understanding hydrological 水文的 processes is essential for sustainable urban planning.

理解水文的过程对于可持续城市规划至关重要。

12.The researchers conducted a study on the local hydrological 水文的 cycle to better understand water resource management.

研究人员对当地的水文的循环进行了研究，以更好地理解水资源管理。

作文

The study of water is a critical aspect of environmental science, particularly in understanding the Earth's systems. One key term in this field is hydrological, which refers to the distribution, movement, and properties of water within the Earth and its atmosphere. The hydrological cycle is a fundamental concept that describes how water evaporates from the surface, condenses into clouds, and eventually falls back to the ground as precipitation. This cycle is essential for maintaining the balance of ecosystems and supporting life on our planet.In many regions, the hydrological cycle is being disrupted by human activities such as deforestation, urbanization, and climate change. These factors can lead to altered rainfall patterns, increased flooding, and prolonged droughts. Understanding the hydrological processes at play can help scientists and policymakers develop strategies to mitigate these impacts. For example, effective water management practices can ensure that communities have access to clean water while also preserving natural habitats.Furthermore, the hydrological data collected through various methods, including satellite observations and ground-based measurements, plays a crucial role in predicting weather patterns and managing water resources. This information is vital for agriculture, as farmers rely on accurate forecasts to plan their planting and harvesting schedules. In addition, understanding the hydrological dynamics of a region can help in designing infrastructure that minimizes flood risks and enhances water conservation.Another important aspect of hydrological studies is the impact of climate change on water resources. As global temperatures rise, the hydrological cycle is expected to intensify, leading to more extreme weather events. For instance, some areas may experience heavier rainfall and increased flooding, while others may suffer from severe drought conditions. By analyzing these trends, researchers can better predict future water availability and quality, which is essential for sustainable development.In conclusion, the term hydrological encompasses a wide range of processes and phenomena related to water. Its significance extends beyond mere scientific study, impacting agriculture, urban planning, and environmental conservation. As we face growing challenges related to water scarcity and climate change, a deeper understanding of hydrological systems will be crucial in developing effective solutions. By prioritizing research and education in this area, we can work towards a more sustainable future that ensures equitable access to water for all living beings on Earth.

水的研究是环境科学的一个关键方面，特别是在理解地球系统方面。该领域的一个关键术语是水文，它指的是水在地球及其大气中的分布、运动和性质。水文循环是一个基本概念，描述了水如何从表面蒸发，凝结成云，并最终作为降水回落到地面。这个循环对于维持生态系统的平衡和支持我们星球上的生命至关重要。在许多地区，水文循环正受到人类活动的干扰，例如森林砍伐、城市化和气候变化。这些因素可能导致降雨模式的改变、洪水的增加和干旱的延续。理解正在发挥作用的水文过程可以帮助科学家和政策制定者制定减轻这些影响的策略。例如，有效的水资源管理实践可以确保社区获得清洁水，同时保护自然栖息地。此外，通过卫星观测和地面测量等各种方法收集的水文数据在预测天气模式和管理水资源中起着至关重要的作用。这些信息对农业至关重要，因为农民依赖准确的天气预报来规划他们的种植和收获时间。此外，理解一个地区的水文动态可以帮助设计基础设施，以最小化洪水风险并增强水资源保护。另一个重要的水文研究方面是气候变化对水资源的影响。随着全球气温的上升，预计水文循环将加剧，导致更极端的天气事件。例如，一些地区可能会经历更强的降雨和更严重的洪水，而其他地区可能会遭受严重的干旱条件。通过分析这些趋势，研究人员可以更好地预测未来的水资源可用性和质量，这对于可持续发展至关重要。总之，术语水文涵盖了与水相关的广泛过程和现象。它的重要性超越了单纯的科学研究，影响着农业、城市规划和环境保护。随着我们面临日益严重的水资源短缺和气候变化挑战，对水文系统的更深入理解将对开发有效解决方案至关重要。通过优先考虑这一领域的研究和教育，我们可以朝着一个更加可持续的未来努力，确保地球上所有生物公平地获得水资源。