dynamic oceanography

简明释义

动力海洋学

英英释义

例句

1.Researchers in the field of dynamic oceanography 动态海洋学 study the movement of ocean currents and their impact on climate.

研究动态海洋学 dynamic oceanography的科学家们研究海洋洋流的运动及其对气候的影响。

2.The study of dynamic oceanography 动态海洋学 helps scientists to model the effects of climate change on marine ecosystems.

对动态海洋学 dynamic oceanography的研究帮助科学家建模气候变化对海洋生态系统的影响。

3.Marine biologists often collaborate with experts in dynamic oceanography 动态海洋学 to understand fish migration patterns.

海洋生物学家常常与动态海洋学 dynamic oceanography领域的专家合作，以了解鱼类迁徙模式。

4.The university offers a course on dynamic oceanography 动态海洋学 that includes hands-on experience with oceanographic instruments.

这所大学提供一门关于动态海洋学 dynamic oceanography的课程，包括使用海洋仪器的实践经验。

5.Understanding dynamic oceanography 动态海洋学 is essential for predicting weather patterns in coastal regions.

理解动态海洋学 dynamic oceanography对于预测沿海地区的天气模式至关重要。

作文

Dynamic oceanography, or 动态海洋学, is a branch of oceanography that focuses on the movement and behavior of ocean waters. It encompasses the study of ocean currents, waves, tides, and other physical phenomena that occur in the ocean. Understanding 动态海洋学 is crucial for several reasons, including climate prediction, marine navigation, and the management of marine resources. The oceans cover more than 70% of the Earth’s surface and play a significant role in regulating the planet's climate. The interactions between the atmosphere and the ocean are complex, and 动态海洋学 helps scientists to understand these interactions better. For example, ocean currents can influence weather patterns and are essential in the distribution of heat around the globe. The Gulf Stream, a well-known ocean current, warms the climate of Western Europe, making it significantly milder than other regions at similar latitudes. Moreover, 动态海洋学 is instrumental in predicting natural disasters such as tsunamis and hurricanes. By studying the patterns of ocean waves and currents, scientists can develop models that forecast the behavior of these events, thereby improving preparedness and response strategies. This predictive capability is vital for coastal communities that are often at risk from such natural disasters. In addition to its importance in climate and disaster prediction, 动态海洋学 also plays a critical role in marine navigation. Understanding ocean currents and tides is essential for safe and efficient shipping routes. Ships must navigate through various currents, and being aware of these dynamics can save time and fuel, reducing costs for shipping companies and minimizing their environmental impact. Furthermore, the study of 动态海洋学 is essential for managing marine resources. Fisheries, for example, are heavily influenced by ocean conditions. Fish populations depend on specific temperature ranges and current patterns for breeding and feeding. By understanding these dynamics, fisheries can be managed sustainably, ensuring that fish stocks remain healthy and that ecosystems are preserved. This is particularly important as overfishing and climate change continue to threaten marine biodiversity. Research in 动态海洋学 involves the use of advanced technology, including satellite observations, buoys, and underwater robots. These tools allow scientists to collect data on ocean conditions in real-time, providing valuable insights into the constantly changing marine environment. As technology continues to advance, our understanding of 动态海洋学 will deepen, leading to better management practices and more informed policy decisions regarding ocean conservation. In conclusion, 动态海洋学 is an essential field that contributes to our understanding of the oceans and their impact on global systems. From climate regulation to disaster prediction, marine navigation, and resource management, the insights gained from this discipline are invaluable. As we face increasing challenges related to climate change and human activity, the importance of 动态海洋学 will only continue to grow. It is imperative that we invest in research and education in this field to ensure a sustainable future for our oceans and the planet as a whole.

动态海洋学，即动态海洋学，是海洋学的一个分支，专注于海洋水体的运动和行为。它包括对海洋洋流、波浪、潮汐以及发生在海洋中的其他物理现象的研究。理解动态海洋学至关重要，原因有很多，包括气候预测、海洋导航和海洋资源管理。海洋覆盖了地球表面超过70%的面积，在调节地球气候方面发挥着重要作用。大气与海洋之间的相互作用非常复杂，而动态海洋学帮助科学家更好地理解这些相互作用。例如，海洋洋流可以影响天气模式，并在全球热量分布中起着重要作用。墨西哥湾暖流是一个著名的洋流，它使西欧的气候变得温和，远比其他同纬度地区要温暖。此外，动态海洋学对于预测自然灾害如海啸和飓风也至关重要。通过研究海浪和洋流的模式，科学家可以开发出预测这些事件行为的模型，从而改善准备和应对策略。这种预测能力对那些经常面临自然灾害风险的沿海社区至关重要。除了在气候和灾害预测中的重要性外，动态海洋学在海洋导航中也发挥着关键作用。了解海洋洋流和潮汐对安全高效的航运路线至关重要。船只必须穿越各种洋流，了解这些动态可以节省时间和燃料，从而降低航运公司的成本并减少其对环境的影响。此外，动态海洋学的研究对于管理海洋资源至关重要。例如，渔业受到海洋条件的重大影响。鱼类种群依赖特定的温度范围和洋流模式进行繁殖和觅食。通过理解这些动态，渔业可以得到可持续管理，确保鱼类资源保持健康，生态系统得以保护。这一点尤为重要，因为过度捕捞和气候变化继续威胁海洋生物多样性。动态海洋学的研究涉及使用先进技术，包括卫星观测、浮标和水下机器人。这些工具使科学家能够实时收集海洋条件的数据，为不断变化的海洋环境提供宝贵的见解。随着技术的不断进步，我们对动态海洋学的理解将加深，从而导致更好的管理实践和更明智的政策决策，涉及海洋保护。总之，动态海洋学是一个重要的领域，有助于我们理解海洋及其对全球系统的影响。从气候调节到灾害预测、海洋导航和资源管理，来自这一学科的见解都是无价的。随着我们面临与气候变化和人类活动相关的挑战日益增加，动态海洋学的重要性将继续增长。我们必须在这一领域投资研究和教育，以确保我们的海洋和整个星球的可持续未来。