elevation of low water

简明释义

低潮潮位

英英释义

例句

1.The report highlighted the elevation of low water in relation to seasonal changes in river flow.

报告强调了低水位的高程与河流流量季节性变化的关系。

2.During the construction, they had to account for the elevation of low water to ensure proper drainage.

在施工过程中，他们必须考虑低水位的高程以确保适当的排水。

3.The elevation of low water can affect local ecosystems and wildlife habitats significantly.

对当地生态系统和野生动物栖息地的影响显著的是低水位的高程。

4.Understanding the elevation of low water is crucial for flood risk assessment in coastal areas.

了解低水位的高程对于沿海地区的洪水风险评估至关重要。

5.The engineers measured the elevation of low water to determine the best location for the new bridge.

工程师测量了低水位的高程以确定新桥的最佳位置。

作文

Understanding the concept of elevation of low water is crucial for various fields, including hydrology, civil engineering, and environmental science. The term refers to the measurement of the height of the lowest water level in a specific location, typically in rivers, lakes, or coastal areas. This measurement is not just a simple number; it plays a significant role in flood management, navigation, and ecological studies. By analyzing the elevation of low water levels, scientists and engineers can predict potential flooding events and design appropriate infrastructure to mitigate risks.In hydrology, the elevation of low water is essential for understanding water flow patterns and seasonal variations. For instance, during dry seasons, water levels can drop significantly, impacting aquatic life and water availability for human use. By monitoring these changes, researchers can implement conservation strategies to protect ecosystems that depend on stable water levels. Moreover, the elevation of low water can influence irrigation practices in agriculture, as farmers must adjust their water usage based on the availability of water resources.Civil engineers also rely on the elevation of low water when designing bridges, dams, and other structures. Knowing the lowest expected water level helps in determining the necessary height and stability of these constructions. If engineers underestimate the elevation of low water, they risk creating vulnerable structures that may be affected by unexpected flooding or erosion. Therefore, accurate measurements and predictions are vital in ensuring public safety and infrastructure integrity.Furthermore, the elevation of low water has implications for navigation and transportation. In areas where boats and ships operate, knowing the lowest water level is essential for avoiding groundings and accidents. Ports and harbors must consider the elevation of low water when planning docking facilities and shipping routes. Accurate charts that reflect these elevations allow for safer and more efficient maritime operations.Environmental scientists study the elevation of low water to assess the health of ecosystems. Wetlands, for example, rely on specific water levels to maintain their biodiversity. Changes in the elevation of low water can indicate shifts in climate patterns, pollution levels, or human activity. By monitoring these changes, scientists can develop strategies to restore and protect these vital habitats.In conclusion, the elevation of low water is a multifaceted concept that holds significant importance across various disciplines. From predicting floods to ensuring safe navigation and protecting ecosystems, understanding this term is essential for effective management of our water resources. As we face challenges related to climate change and urban development, the knowledge surrounding the elevation of low water will become increasingly important. Continued research and monitoring will help us adapt to changing conditions and safeguard our natural and built environments.

理解“低水位升高”这一概念对于水文学、土木工程和环境科学等多个领域至关重要。该术语指的是在特定地点（通常是河流、湖泊或沿海地区）测量的最低水位的高度。这一测量不仅仅是一个简单的数字；它在洪水管理、航运和生态研究中扮演着重要角色。通过分析“低水位升高”水平，科学家和工程师可以预测潜在的洪水事件，并设计相应的基础设施以减轻风险。在水文学中，“低水位升高”对于理解水流模式和季节变化至关重要。例如，在干旱季节，水位可能会显著下降，影响水生生物和人类用水的可用性。通过监测这些变化，研究人员可以实施保护策略，以保护依赖于稳定水位的生态系统。此外，“低水位升高”还会影响农业中的灌溉实践，因为农民必须根据水资源的可用性调整用水量。土木工程师在设计桥梁、大坝和其他结构时也依赖于“低水位升高”。了解最低预期水位有助于确定这些建筑物所需的高度和稳定性。如果工程师低估了“低水位升高”，他们就有可能建造出容易受到意外洪水或侵蚀影响的脆弱结构。因此，准确的测量和预测对于确保公共安全和基础设施的完整性至关重要。此外，“低水位升高”对航运和交通也有影响。在船只和货轮操作的地区，了解最低水位是避免搁浅和事故的关键。港口和码头在规划停靠设施和航运路线时必须考虑“低水位升高”。反映这些水位的准确图表可以使海上作业更安全、更高效。环境科学家研究“低水位升高”以评估生态系统的健康。例如，湿地依赖特定的水位来维持其生物多样性。“低水位升高”的变化可能表明气候模式、污染水平或人类活动的变化。通过监测这些变化，科学家可以制定恢复和保护这些重要栖息地的策略。总之，“低水位升高”是一个多方面的概念，在各个学科中具有重要意义。从预测洪水到确保安全航行，再到保护生态系统，理解这个术语对于有效管理我们的水资源至关重要。随着我们面临与气候变化和城市发展相关的挑战，围绕“低水位升高”的知识将变得越来越重要。持续的研究和监测将帮助我们适应变化的条件，保护我们的自然和建筑环境。