mean extreme high water springs

简明释义

平均大潮极高潮位

英英释义

例句

1.The environmental study focused on how mean extreme high water springs affect local ecosystems.

环境研究集中在平均极端高水位潮汐如何影响当地生态系统。

2.The city updated its flood maps based on the latest data on mean extreme high water springs.

该市根据最新的平均极端高水位潮汐数据更新了洪水地图。

3.Understanding the mean extreme high water springs is crucial for flood risk assessments.

理解平均极端高水位潮汐对洪水风险评估至关重要。

4.For construction projects near the shore, it's important to consider the mean extreme high water springs levels.

在海岸附近的建设项目中，考虑平均极端高水位潮汐水平是很重要的。

5.The coastal engineers calculated the mean extreme high water springs for the new seawall design.

沿海工程师计算了新海堤设计的平均极端高水位潮汐。

作文

Understanding the term mean extreme high water springs is crucial for anyone involved in coastal management, environmental science, or urban planning. This phrase refers to a specific measurement used in hydrology and marine studies, indicating the average of the highest water levels reached during spring tides over a significant period. To grasp the importance of this term, we must first delve into the concepts of tides and their effects on coastal environments.Tides are caused primarily by the gravitational pull of the moon and the sun on the Earth's waters. They occur in cycles, with spring tides being the most extreme, occurring twice a month when the Earth, moon, and sun align. During these times, the gravitational forces combine to produce higher high tides and lower low tides. The mean extreme high water springs thus represents an essential metric for understanding these fluctuations.Coastal regions are particularly vulnerable to the impacts of rising sea levels and climate change. As global temperatures rise, glaciers melt, and ocean temperatures increase, the volume of water in the oceans expands. This phenomenon can lead to higher mean sea levels, which subsequently affects the mean extreme high water springs. Understanding this metric helps scientists and policymakers assess potential flooding risks and develop strategies for coastal resilience.In urban planning, knowledge of the mean extreme high water springs is vital for constructing buildings, roads, and other infrastructure. For instance, in cities located near coastlines, engineers must consider this data when designing structures to ensure they can withstand potential flooding. If a city fails to account for the mean extreme high water springs, it risks costly damages and endangers residents' safety.Moreover, the mean extreme high water springs has implications for ecosystems as well. Coastal habitats, such as wetlands and estuaries, are influenced by tidal movements. These ecosystems provide critical services, including water filtration, flood protection, and wildlife habitat. By monitoring the mean extreme high water springs, ecologists can better understand how these habitats may shift over time and develop conservation strategies accordingly.In conclusion, the term mean extreme high water springs encapsulates a significant aspect of tidal studies that impacts various fields, from environmental science to urban development. As we face the challenges posed by climate change, understanding this measurement becomes increasingly important. It enables us to make informed decisions that protect our communities, preserve our ecosystems, and adapt to the changing world around us. Therefore, incorporating the knowledge of mean extreme high water springs into our planning and policies is not just beneficial but necessary for sustainable development and disaster preparedness.

理解术语mean extreme high water springs对于任何参与沿海管理、环境科学或城市规划的人来说都至关重要。这个短语指的是水文学和海洋研究中使用的特定测量，表示在一段时间内春潮期间达到的最高水位的平均值。要掌握这个术语的重要性，我们必须首先深入了解潮汐及其对沿海环境的影响。潮汐主要是由于月球和太阳对地球水体的引力作用而产生的。它们以周期性发生，春潮是最极端的，每月发生两次，当地球、月球和太阳对齐时。在这些时期，引力作用相结合，产生更高的高潮和更低的低潮。因此，mean extreme high water springs代表了理解这些波动的重要指标。沿海地区特别容易受到海平面上升和气候变化影响。随着全球气温上升，冰川融化，海洋温度升高，海洋中的水量增加。这种现象可能导致海平面升高，从而影响mean extreme high water springs。了解这一指标有助于科学家和决策者评估潜在的洪水风险，并制定沿海韧性发展的策略。在城市规划中，了解mean extreme high water springs对于建筑、道路和其他基础设施的建设至关重要。例如，在靠近海岸线的城市，工程师在设计结构时必须考虑这些数据，以确保它们能够抵御潜在的洪水。如果一个城市未能考虑mean extreme high water springs，就会面临巨大的经济损失，并危及居民的安全。此外，mean extreme high water springs对生态系统也有影响。潮汐运动影响沿海栖息地，如湿地和河口。这些生态系统提供关键服务，包括水过滤、防洪和野生动物栖息地。通过监测mean extreme high water springs，生态学家可以更好地理解这些栖息地可能随时间变化并相应制定保护策略。总之，术语mean extreme high water springs概括了潮汐研究的一个重要方面，影响着多个领域，从环境科学到城市发展。随着我们面临气候变化带来的挑战，理解这一测量变得越来越重要。它使我们能够做出明智的决策，保护我们的社区，保护我们的生态系统，并适应周围不断变化的世界。因此，将mean extreme high water springs的知识纳入我们的规划和政策中，不仅有利而且是可持续发展和灾害准备的必要条件。