high water interval

简明释义

高潮间隙

英英释义

例句

1.The research team studied the effects of climate change on the high water interval patterns in the region.

研究小组研究了气候变化对该地区高水位间隔模式的影响。

2.During the high water interval, the river's flow rate can significantly increase, affecting nearby habitats.

在高水位间隔期间，河流的流速可能会显著增加，影响附近的栖息地。

3.Local authorities monitor the high water interval to issue flood warnings in advance.

当地政府监测高水位间隔以提前发布洪水警报。

4.Boaters should be aware of the high water interval when planning their trips to ensure safety.

船只驾驶员在规划旅行时应注意高水位间隔以确保安全。

5.The engineer calculated the high water interval to determine the best times for maintenance on the dam.

工程师计算了高水位间隔以确定对大坝进行维护的最佳时间。

作文

Understanding the concept of a high water interval is essential for various fields, including environmental science, engineering, and urban planning. A high water interval refers to the period during which water levels in a river, lake, or other body of water reach their maximum height, typically due to factors such as heavy rainfall, snowmelt, or tidal influences. This concept plays a critical role in flood management, ecosystem health, and infrastructure design.In environmental science, recognizing the high water interval helps researchers monitor aquatic ecosystems. During this time, the increased water levels can create new habitats for fish and other wildlife. For instance, many fish species rely on flooded areas to spawn, as these regions provide ample food and shelter for their young. Understanding when these intervals occur allows scientists to predict changes in biodiversity and assess the health of aquatic environments.From an engineering perspective, the high water interval is crucial for designing structures such as bridges, dams, and levees. Engineers must consider the maximum anticipated water levels to ensure that these structures can withstand potential flooding. If a bridge is built without accounting for the high water interval, it may be at risk of being submerged during extreme weather events, leading to catastrophic failures and loss of life. Therefore, accurate predictions of water levels are necessary for safe and effective engineering practices.Urban planners also need to take the high water interval into account when developing cities and communities. As urban areas expand, impervious surfaces like roads and buildings increase runoff, which can elevate water levels during storms. By understanding the timing and extent of high water intervals, planners can implement strategies to manage stormwater effectively, such as creating retention basins or green spaces that absorb excess water. This foresight not only protects infrastructure but also enhances the resilience of communities against flooding.Moreover, climate change has significant implications for high water intervals. As global temperatures rise, precipitation patterns are shifting, leading to more intense and frequent storms. These changes can alter the timing and magnitude of high water intervals, making it even more challenging for scientists and engineers to predict water levels accurately. Therefore, ongoing research and adaptive management strategies are necessary to address these evolving challenges.In conclusion, the high water interval is a vital concept that intersects with various disciplines, including environmental science, engineering, and urban planning. By understanding its implications, professionals in these fields can better prepare for the impacts of fluctuating water levels, ensuring the safety of ecosystems, infrastructure, and communities. As we continue to face the realities of climate change, the importance of accurately predicting and managing high water intervals will only grow, underscoring the need for interdisciplinary collaboration and innovative solutions.

理解“高水位间隔”这一概念对于环境科学、工程和城市规划等多个领域至关重要。“高水位间隔”是指在河流、湖泊或其他水体中，水位达到最高高度的时期，通常是由于强降雨、融雪或潮汐影响等因素造成的。这个概念在洪水管理、生态系统健康和基础设施设计中发挥着关键作用。在环境科学中，认识到“高水位间隔”有助于研究人员监测水生生态系统。在这一时期，水位的增加可以为鱼类和其他野生动物创造新的栖息地。例如，许多鱼类依赖于淹没区域进行产卵，因为这些地区为它们的幼鱼提供了丰富的食物和庇护所。了解这些间隔何时发生，可以帮助科学家预测生物多样性的变化并评估水生环境的健康。从工程的角度来看，“高水位间隔”对于设计桥梁、大坝和堤坝等结构至关重要。工程师必须考虑最大预期水位，以确保这些结构能够承受潜在的洪水。如果一座桥梁在设计时未考虑“高水位间隔”，可能会在极端天气事件中面临被淹没的风险，从而导致灾难性故障和生命损失。因此，准确预测水位对于安全和有效的工程实践是必要的。城市规划者在开发城市和社区时也需要考虑“高水位间隔”。随着城市地区的扩展，不透水表面（如道路和建筑物）增加了径流，这可能在暴风雨期间提高水位。通过了解“高水位间隔”的时间和范围，规划者可以实施有效管理雨水的策略，例如创建蓄水池或绿地，以吸收多余的水。这种前瞻性不仅保护基础设施，还有助于增强社区抵御洪水的韧性。此外，气候变化对“高水位间隔”具有重要影响。随着全球气温上升，降水模式正在发生变化，导致更强烈和频繁的暴风雨。这些变化可能会改变“高水位间隔”的时间和幅度，使科学家和工程师更难以准确预测水位。因此，持续的研究和适应性管理策略对于应对这些不断演变的挑战是必要的。总之，“高水位间隔”是一个与环境科学、工程和城市规划等多个学科交叉的重要概念。通过理解其影响，这些领域的专业人士可以更好地为水位波动的影响做好准备，确保生态系统、基础设施和社区的安全。随着我们继续面对气候变化的现实，准确预测和管理“高水位间隔”的重要性将愈加凸显，这突显了跨学科合作和创新解决方案的必要性。