mean low water springs
简明释义
平均大潮低潮面
英英释义
例句
1.The local marina uses mean low water springs as a reference point for docking larger boats.
当地码头以平均低潮春汛作为停靠大型船只的参考点。
2.Navigation charts often indicate depths in relation to mean low water springs for safer maritime travel.
航行图表通常以平均低潮春汛为参考标示深度,以确保海上旅行的安全。
3.Fishermen often check the mean low water springs to determine the best times for catching certain fish species.
渔民们经常检查平均低潮春汛以确定捕捞某些鱼类的最佳时机。
4.When planning a coastal construction project, it is essential to consider the mean low water springs level to avoid flooding.
在规划沿海建设项目时,考虑平均低潮春汛水位是至关重要的,以避免洪水。
5.The harbor's depth is measured at mean low water springs, which indicates the average low tide level during spring tides.
港口的深度是在平均低潮春汛时测量的,表示春潮期间的平均低水位。
作文
Understanding the concept of mean low water springs is crucial for various fields, especially in marine navigation, coastal engineering, and environmental science. The term refers to a specific tidal datum that represents the average level of the lowest tide recorded at a particular location over a significant period. This measurement is vital for ensuring safe navigation for ships and boats, as it helps determine the depth of water in harbors and along coastlines.
In marine navigation, knowing the mean low water springs is essential for sailors and pilots. When planning a voyage or maneuvering in shallow waters, they must consider the tidal patterns to avoid grounding their vessels. For instance, if a ship is navigating in a port where the mean low water springs level is low, the captain must ensure that the vessel's draft does not exceed the available water depth during low tide. This knowledge prevents accidents and ensures the safety of both the crew and the ship.
Additionally, coastal engineers rely on the mean low water springs datum to design and construct infrastructure such as docks, piers, and breakwaters. By understanding the average low water levels, they can better assess the risks associated with erosion and sedimentation. This information also aids in the planning of coastal protection measures, which are crucial for safeguarding shorelines against the impacts of storms and rising sea levels.
Environmental scientists also utilize the mean low water springs data when studying coastal ecosystems. Tidal zones are unique habitats that support diverse flora and fauna, and knowing the average low water level helps researchers monitor changes in these ecosystems. For example, if the mean low water springs level rises due to climate change, it could lead to the loss of critical habitats for species that depend on specific tidal conditions. Understanding these dynamics is essential for conservation efforts and for developing strategies to protect vulnerable ecosystems.
Furthermore, the mean low water springs datum plays an important role in legal and regulatory frameworks. In many regions, property boundaries and water rights are determined based on this tidal measurement. It is crucial for landowners and developers to understand how the mean low water springs affects their properties, especially in areas prone to flooding or erosion.
In conclusion, the term mean low water springs encapsulates a vital aspect of marine and coastal studies. Its significance spans multiple disciplines, including navigation, engineering, environmental science, and law. By grasping the implications of this tidal datum, professionals can make informed decisions that enhance safety, promote sustainability, and protect natural resources. As our understanding of climate change grows, the importance of accurately measuring and interpreting the mean low water springs will only increase, highlighting the need for ongoing research and monitoring in coastal areas worldwide.
理解“mean low water springs”这一概念对于多个领域至关重要,尤其是在海洋导航、沿海工程和环境科学中。这个术语指的是一个特定的潮汐基准,表示在特定地点经过较长时间记录的最低潮位的平均水平。这一测量对于确保船舶和小艇的安全航行至关重要,因为它有助于确定港口和沿海地区的水深。
在海洋导航中,了解mean low water springs对于水手和飞行员来说是必不可少的。在规划航程或在浅水区操纵时,他们必须考虑潮汐模式,以避免将船只搁浅。例如,如果一艘船在一个mean low water springs水平较低的港口航行,船长必须确保船体的吃水不超过低潮期间可用的水深。这一知识可以防止事故的发生,确保船员和船只的安全。
此外,沿海工程师依赖于mean low water springs基准来设计和建造基础设施,如码头、栈桥和防波堤。通过了解平均低水位,他们可以更好地评估与侵蚀和沉积相关的风险。这一信息也有助于规划沿海保护措施,这对于保护海岸线免受风暴和海平面上升影响至关重要。
环境科学家在研究沿海生态系统时也会利用mean low water springs数据。潮汐区是独特的栖息地,支持多样的植物和动物,而了解平均低水位有助于研究人员监测这些生态系统的变化。例如,如果由于气候变化导致mean low water springs水平上升,可能会导致依赖特定潮汐条件的物种关键栖息地的丧失。理解这些动态对于保护工作至关重要,并为保护脆弱生态系统制定战略。
此外,mean low water springs基准在法律和监管框架中也发挥着重要作用。在许多地区,财产边界和水权是基于这一潮汐测量确定的。土地所有者和开发商了解mean low water springs如何影响他们的财产是至关重要的,尤其是在易发生洪水或侵蚀的地区。
总之,术语mean low water springs涵盖了海洋和沿海研究的一个重要方面。它的重要性跨越多个学科,包括导航、工程、环境科学和法律。通过掌握这一潮汐基准的影响,专业人士可以做出明智的决策,从而提高安全性、促进可持续发展和保护自然资源。随着我们对气候变化理解的加深,准确测量和解释mean low water springs的重要性只会增加,突显了在全球沿海地区进行持续研究和监测的必要性。
