amphidromic region

简明释义

无潮区

英英释义

例句

1.The tide patterns in the amphidromic region 双向潮汐区 are fascinating to study.

在双向潮汐区的潮汐模式非常值得研究。

2.The concept of an amphidromic region 双向潮汐区 helps explain why some areas experience less tidal variation.

双向潮汐区的概念有助于解释为什么某些地区潮汐变化较小。

3.In an amphidromic region 双向潮汐区, the water level can rise and fall dramatically.

在双向潮汐区，水位可以剧烈上升和下降。

4.Researchers are mapping the amphidromic region 双向潮汐区 to better understand ocean currents.

研究人员正在绘制双向潮汐区，以更好地理解海洋洋流。

5.Fishing activities are often influenced by the dynamics of the amphidromic region 双向潮汐区 nearby.

附近的双向潮汐区的动态常常影响渔业活动。

作文

The ocean is a vast and mysterious world, full of intricate patterns and phenomena that govern the movement of water and marine life. One such phenomenon is the concept of the amphidromic region, which plays a crucial role in understanding tidal dynamics. An amphidromic region refers to a specific area in the ocean where the tidal waves rotate around a central point, creating a unique environment where the tidal range is minimal. This phenomenon is particularly significant in large ocean basins, where complex interactions between landforms, ocean currents, and gravitational forces shape the behavior of tides.In essence, an amphidromic region acts as a pivot point for tidal movements, allowing waters to flow in and out while maintaining a relatively stable water level. The significance of this area can be observed in various coastal ecosystems, where the interplay between tides and marine life creates a rich biodiversity. For instance, estuaries often lie within or near these regions, benefiting from the nutrient-rich waters brought in by tidal flows. Understanding the mechanics of an amphidromic region is essential for scientists and researchers who study marine environments. By analyzing how tides behave within these areas, they can gain insights into sediment transport, nutrient distribution, and the overall health of marine ecosystems. Additionally, knowledge of amphidromic regions is vital for navigation and coastal management, as these areas can influence local fishing industries and shoreline development.The formation of an amphidromic region is influenced by various factors, including the shape of the coastline, the depth of the ocean floor, and the alignment of the moon and sun. As the gravitational pull of these celestial bodies affects the Earth's waters, the resulting tidal waves interact with the geographical features of the ocean basin, leading to the establishment of these unique regions. In some cases, multiple amphidromic regions can exist within a single ocean basin, each with its own distinct characteristics and influences on tidal behavior.Moreover, climate change poses a significant threat to the stability of amphidromic regions. As sea levels rise and weather patterns shift, the delicate balance of these areas can be disrupted, leading to changes in tidal patterns and marine habitats. Researchers are increasingly focused on monitoring these changes to better understand their implications for coastal communities and marine biodiversity.In conclusion, the amphidromic region is a fascinating aspect of oceanography that highlights the complexity of tidal systems and their impact on marine environments. By studying these regions, we can enhance our understanding of ecological dynamics, improve coastal management practices, and develop strategies to mitigate the effects of climate change on our oceans. The exploration of amphidromic regions not only enriches our scientific knowledge but also deepens our appreciation for the intricate relationships that exist within the natural world.

海洋是一个广阔而神秘的世界，充满了复杂的模式和现象，这些现象支配着水和海洋生物的运动。其中一个现象是“amphidromic region”的概念，它在理解潮汐动态中起着至关重要的作用。amphidromic region指的是海洋中一个特定区域，在这个区域内，潮汐波围绕一个中心点旋转，创造出一个独特的环境，在这个环境中，潮差最小。这种现象在大型海洋盆地中尤为显著，在那里，陆地形态、洋流和引力之间的复杂相互作用塑造了潮汐的行为。从本质上讲，amphidromic region充当潮汐运动的支点，使水能够进出，同时保持相对稳定的水位。这个区域的重要性可以在各种沿海生态系统中观察到，在这些生态系统中，潮汐与海洋生物之间的相互作用创造了丰富的生物多样性。例如，河口通常位于或靠近这些区域，受益于潮汐流带来的富含营养的水域。理解amphidromic region的机制对于研究海洋环境的科学家和研究人员至关重要。通过分析潮汐在这些地区的行为，他们可以获得关于沉积物运输、养分分布和海洋生态系统整体健康的见解。此外，了解amphidromic regions对航行和沿海管理也至关重要，因为这些区域可能影响地方渔业和海岸线发展。amphidromic region的形成受多种因素影响，包括海岸线的形状、海底的深度以及月亮和太阳的排列。随着这些天体的引力作用于地球的水域，产生的潮汐波与海洋盆地的地理特征相互作用，导致这些独特区域的建立。在某些情况下，单一海洋盆地内可以存在多个amphidromic regions，每个区域都有其独特的特征和对潮汐行为的影响。此外，气候变化对amphidromic regions的稳定性构成了重大威胁。随着海平面上升和天气模式变化，这些区域的微妙平衡可能会被打破，导致潮汐模式和海洋栖息地的变化。研究人员越来越关注监测这些变化，以更好地理解其对沿海社区和海洋生物多样性的影响。总之，amphidromic region是海洋学的一个迷人方面，突显了潮汐系统的复杂性及其对海洋环境的影响。通过研究这些区域，我们可以增强对生态动态的理解，改善沿海管理实践，并制定减轻气候变化对海洋影响的策略。对amphidromic regions的探索不仅丰富了我们的科学知识，还加深了我们对自然界中存在的复杂关系的欣赏。