mean lower high neaps
简明释义
平均小潮低高潮
英英释义
例句
1.During the tidal analysis, we observed that the mean lower high neaps 平均低高潮 occur approximately every two weeks.
在潮汐分析中,我们观察到平均低高潮大约每两周发生一次。
2.In our oceanography class, we learned how to measure the mean lower high neaps 平均低高潮 using tide gauges.
在我们的海洋学课上,我们学习了如何使用潮位计测量平均低高潮。
3.Understanding the mean lower high neaps 平均低高潮 is crucial for predicting coastal erosion.
理解平均低高潮对于预测海岸侵蚀至关重要。
4.The fishermen planned their trips around the mean lower high neaps 平均低高潮 to optimize their catch.
渔民们围绕平均低高潮安排他们的出海,以优化捕获量。
5.The marine biologists noted that the mean lower high neaps 平均低高潮 influence the breeding patterns of certain fish species.
海洋生物学家注意到平均低高潮影响某些鱼类的繁殖模式。
作文
The term mean lower high neaps refers to a specific phenomenon observed in tidal patterns. To understand this concept, we first need to delve into the basics of tidal movements. Tides are primarily caused by the gravitational pull of the moon and the sun on Earth’s waters. As the earth rotates, different areas experience varying levels of water height, leading to high and low tides. Among these tidal phases, there are periods known as 'neap tides.' Neap tides occur when the gravitational forces of the moon and the sun are perpendicular to each other, resulting in the least difference between high and low tides. In the context of mean lower high neaps, we are examining the average of the lower high tides that occur during neap tide cycles. This measurement is particularly important for various activities, such as navigation, fishing, and coastal management. By understanding the mean lower high neaps, fishermen can better predict the best times to catch fish, while mariners can plan their journeys to avoid areas with potentially dangerous low water levels.Moreover, the mean lower high neaps can also play a significant role in environmental studies. Coastal ecosystems are highly sensitive to changes in tide levels, and understanding the average heights can help scientists assess the health of these ecosystems. For instance, certain species of plants and animals thrive only within specific tidal ranges. If the mean lower high neaps shifts significantly due to climate change or human activity, it could have cascading effects on biodiversity in those areas.It is also worth noting that the mean lower high neaps can vary from one geographical location to another. Factors such as local topography, ocean currents, and even weather patterns can influence tidal behaviors. Therefore, researchers often conduct extensive studies to gather data about tides in specific regions to determine their mean lower high neaps. This information is crucial for developing effective coastal management strategies that take into account both natural tidal patterns and human impacts.In summary, the concept of mean lower high neaps is essential for understanding tidal dynamics and their implications for marine and coastal environments. By calculating the average of lower high tides during neap tides, stakeholders can make informed decisions that benefit both economic activities and ecological conservation. As our planet continues to face environmental challenges, having a firm grasp of such terms will be increasingly vital for sustainable development and resource management.
术语mean lower high neaps指的是在潮汐模式中观察到的特定现象。要理解这个概念,我们首先需要深入了解潮汐运动的基础知识。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。随着地球的旋转,不同区域经历不同水平的水位,导致高低潮的出现。在这些潮汐阶段中,有一段时间被称为“小潮”。小潮发生在月球和太阳的引力相互垂直时,导致高低潮之间的差异最小。在mean lower high neaps的背景下,我们正在检查在小潮周期中发生的较低高潮的平均值。这个测量对于各种活动尤为重要,例如航行、捕鱼和沿海管理。通过理解mean lower high neaps,渔民可以更好地预测捕捞鱼类的最佳时机,而海员可以规划他们的航程,以避免在水位可能危险的低水区域。此外,mean lower high neaps在环境研究中也可以发挥重要作用。沿海生态系统对潮汐水平的变化非常敏感,了解平均水位可以帮助科学家评估这些生态系统的健康。例如,某些植物和动物物种仅在特定的潮汐范围内繁荣。如果由于气候变化或人类活动而导致mean lower high neaps发生显著变化,可能会对这些地区的生物多样性产生连锁反应。还值得注意的是,mean lower high neaps可能因地理位置而异。当地形、海洋流动甚至天气模式等因素都可能影响潮汐行为。因此,研究人员通常进行广泛的研究,以收集特定区域潮汐的数据,以确定它们的mean lower high neaps。这些信息对于制定有效的沿海管理策略至关重要,这些策略考虑到自然潮汐模式和人类影响。总之,mean lower high neaps的概念对于理解潮汐动态及其对海洋和沿海环境的影响至关重要。通过计算小潮期间较低高潮的平均值,各利益相关者可以做出有利于经济活动和生态保护的明智决策。随着我们的星球面临环境挑战,牢固掌握这样的术语将对可持续发展和资源管理越来越重要。
