mean low water springs

简明释义

平均大潮低潮

英英释义

例句

1.Coastal engineers often use mean low water springs as a baseline for construction projects.

沿海工程师常常将平均低潮春潮作为建设项目的基准。

2.The dredging operation was planned to reach a depth below mean low water springs to ensure safe passage for larger vessels.

疏浚作业计划达到低于平均低潮春潮的深度，以确保大型船只的安全通行。

3.Fishing regulations may change based on the mean low water springs levels in the area.

渔业法规可能会根据该地区的平均低潮春潮水平而变化。

4.Boaters should be aware that the mean low water springs mark affects their navigation routes.

船员应注意，平均低潮春潮标记会影响他们的航行路线。

5.The harbor's depth is measured at mean low water springs, which indicates the average lowest level of the tide during spring tides.

港口的深度是在平均低潮春潮时测量的，这表示春潮期间潮水的平均最低水平。

作文

Understanding the concept of mean low water springs is crucial for various fields, particularly in marine navigation, coastal engineering, and environmental studies. The term refers to the average level of the lowest tide recorded at a specific location over a certain period, typically over a lunar month. This measurement provides essential information for understanding tidal patterns and their implications on coastal ecosystems. For instance, knowing the mean low water springs level helps sailors determine safe passage routes, especially in areas where shallow waters can pose significant hazards. In marine navigation, tides play a vital role in the movement of vessels. Ships must navigate through channels that can be affected by the rise and fall of sea levels. By understanding the mean low water springs, navigators can avoid grounding their vessels in shallow areas during low tide. This knowledge not only ensures the safety of the crew and cargo but also protects the marine environment from potential damage caused by grounding incidents.Coastal engineers also rely heavily on the mean low water springs measurement when designing structures such as docks, piers, and seawalls. These constructions must withstand the forces of nature, including waves and tidal changes. By analyzing historical tidal data, engineers can predict future conditions and design structures that can endure these fluctuations. Furthermore, understanding the mean low water springs assists in assessing erosion rates along coastlines, which is critical for maintaining the integrity of coastal properties and habitats.Environmental scientists study the mean low water springs to monitor the health of coastal ecosystems. Tidal fluctuations influence the distribution of marine species, sediment transport, and nutrient cycling within estuaries and coastal waters. By establishing baseline data around the mean low water springs, researchers can assess the impacts of climate change, pollution, and human activities on these delicate environments. For example, rising sea levels may alter the mean low water springs level, impacting local wildlife and plant communities that have adapted to specific tidal ranges.Moreover, the mean low water springs serves as a reference point for various legal and regulatory frameworks concerning coastal land use. Property ownership and rights often hinge on tidal boundaries, making it essential for landowners and policymakers to understand this concept. Accurate measurements of the mean low water springs can prevent disputes over property lines and ensure compliance with environmental regulations aimed at protecting coastal areas.In conclusion, the significance of mean low water springs extends across multiple disciplines, from navigation and engineering to environmental science and policy-making. Its role in understanding tidal dynamics is indispensable for ensuring safe maritime operations, effective coastal infrastructure, and sustainable management of marine resources. As our planet faces challenges such as climate change and habitat degradation, continued research and education on concepts like mean low water springs will be vital for fostering a deeper appreciation and stewardship of our coastal environments.

理解平均低水位春潮的概念对多个领域至关重要，尤其是在海洋导航、沿海工程和环境研究中。这个术语指的是在特定地点在一定时期内（通常是一个月相周期）记录到的最低潮位的平均水平。这个测量提供了关于潮汐模式及其对沿海生态系统影响的重要信息。例如，了解平均低水位春潮的水平可以帮助水手确定安全的航线，特别是在浅水区可能存在重大危险的地方。在海洋导航中，潮汐在船只的移动中发挥着重要作用。船只必须通过可能受到海平面升降影响的航道航行。通过了解平均低水位春潮，导航员可以避免在低潮时将船只搁浅在浅水区。这一知识不仅确保了船员和货物的安全，还保护了海洋环境免受搁浅事件造成的潜在损害。沿海工程师在设计码头、栈桥和海堤等结构时也高度依赖平均低水位春潮的测量。这些建筑必须承受自然力量，包括波浪和潮汐变化。通过分析历史潮汐数据，工程师可以预测未来的条件，并设计能够承受这些波动的结构。此外，了解平均低水位春潮有助于评估沿海地区的侵蚀率，这对维护沿海财产和栖息地的完整性至关重要。环境科学家研究平均低水位春潮以监测沿海生态系统的健康状况。潮汐波动影响着海洋物种的分布、沉积物运输和营养循环。在平均低水位春潮周围建立基线数据，研究人员可以评估气候变化、污染和人类活动对这些脆弱环境的影响。例如，海平面上升可能会改变平均低水位春潮的水平，影响已经适应特定潮汐范围的当地野生动物和植物群落。此外，平均低水位春潮作为各种法律和监管框架的参考点，涉及沿海土地使用。财产权和权利通常取决于潮汐边界，因此土地所有者和政策制定者理解这一概念至关重要。准确测量平均低水位春潮可以防止财产界限的争议，确保遵守旨在保护沿海地区的环境法规。总之，平均低水位春潮的重要性跨越多个学科，从导航和工程到环境科学和政策制定。它在理解潮汐动态中的作用对于确保安全的海事操作、有效的沿海基础设施和可持续的海洋资源管理至关重要。随着我们的星球面临气候变化和栖息地退化等挑战，继续研究和教育像平均低水位春潮这样的概念对于促进对我们沿海环境的更深层次的欣赏和保护至关重要。