bottom wave

简明释义

海底波;

英英释义

例句

1.The surfer was waiting for the right moment to catch the bottom wave.

冲浪者在等待合适的时机去抓住底波。

2.He felt a rush of adrenaline as he paddled into the bottom wave.

当他划入底波时，他感到一阵肾上腺素飙升。

3.The fishermen knew that the best time to fish was right after the bottom wave receded.

渔民们知道，最佳捕鱼时间是在底波退去之后。

4.The bottom wave can often be tricky to navigate for inexperienced surfers.

底波对于缺乏经验的冲浪者来说往往很难驾驭。

5.During the storm, the bottom wave created powerful currents in the ocean.

在暴风雨期间，底波在海洋中产生了强大的水流。

作文

In the world of oceanography and marine studies, the term bottom wave refers to the oscillations or movements of water that occur near the seabed. These waves are significant for various reasons, including their impact on sediment transport, marine ecosystems, and underwater structures. Understanding bottom wave dynamics is essential for researchers and engineers who work in coastal management and marine construction.The bottom wave phenomenon is influenced by several factors, including water depth, wave energy, and the type of seabed material. For instance, in shallow waters, the interaction between surface waves and the seabed can create complex wave patterns that affect how sediment is moved and deposited. This sediment transport plays a critical role in shaping coastlines and maintaining healthy marine habitats.Moreover, bottom wave activity can also have implications for marine life. Many species rely on specific seabed conditions for breeding and feeding. Changes in the sediment structure caused by bottom wave actions can disrupt these habitats, leading to potential declines in fish populations and other marine organisms. Therefore, understanding the behavior of bottom waves is vital for conservation efforts and sustainable fishing practices.In engineering, the effects of bottom waves must be considered when designing underwater structures such as oil rigs, wind farms, and bridges. These structures need to withstand the forces generated by bottom waves to ensure their stability and longevity. Engineers often conduct detailed studies of bottom wave patterns and their interactions with different materials to create designs that can endure harsh marine environments.Furthermore, advancements in technology have allowed scientists to monitor bottom wave activity more effectively. Using underwater drones and sensors, researchers can gather data on wave patterns, sediment movement, and marine life interactions. This data is crucial for developing models that predict how bottom waves will behave under various conditions, which can inform both environmental policy and engineering practices.In conclusion, the study of bottom waves is an interdisciplinary field that encompasses oceanography, ecology, and engineering. By understanding the dynamics of bottom waves, we can better protect our marine environments and design resilient structures that coexist with nature. As we continue to explore the depths of our oceans, the importance of bottom wave research will only grow, highlighting the intricate connections between the sea and the life it supports.

在海洋学和海洋研究的领域中，术语底波指的是发生在海床附近的水的振荡或运动。这些波动因其对沉积物运输、海洋生态系统和水下结构的影响而具有重要意义。理解底波动态对于从事沿海管理和海洋建设的研究人员和工程师至关重要。底波现象受到多种因素的影响，包括水深、波能和海床材料类型。例如，在浅水区，表面波与海床之间的相互作用可能会产生复杂的波动模式，这影响沉积物的移动和沉积。这种沉积物运输在塑造海岸线和维持健康的海洋栖息地方面起着关键作用。此外，底波活动对海洋生物也有影响。许多物种依赖特定的海床条件进行繁殖和觅食。由于底波作用引起的沉积物结构变化可能会扰乱这些栖息地，从而导致鱼类和其他海洋生物数量的潜在下降。因此，了解底波的行为对于保护工作和可持续捕鱼实践至关重要。在工程领域，设计水下结构（如油井、风电场和桥梁）时必须考虑底波的影响。这些结构需要承受底波产生的力量，以确保其稳定性和耐久性。工程师通常会对底波模式及其与不同材料的相互作用进行详细研究，以创建能够承受恶劣海洋环境的设计。此外，技术的进步使科学家能够更有效地监测底波活动。通过使用水下无人机和传感器，研究人员可以收集有关波动模式、沉积物运动和海洋生物相互作用的数据。这些数据对于开发预测底波在各种条件下的行为模型至关重要，这可以为环境政策和工程实践提供信息。总之，底波的研究是一个跨学科的领域，涵盖了海洋学、生态学和工程学。通过理解底波的动态，我们可以更好地保护我们的海洋环境，并设计出与自然共存的韧性结构。随着我们继续探索海洋的深处，底波研究的重要性只会增加，突显出海洋与支持生命之间的复杂联系。