oceanographic observation

简明释义

海洋观测

英英释义

例句

1.Satellite technology has greatly improved our ability to perform oceanographic observation from space.

卫星技术大大提高了我们从太空进行海洋观测的能力。

2.During the expedition, scientists collected data through oceanographic observation to analyze water temperature and salinity.

在探险期间，科学家通过海洋观测收集数据，以分析水温和盐度。

3.Marine biologists rely on oceanographic observation to track the migration patterns of various fish species.

海洋生物学家依靠海洋观测来追踪各种鱼类的迁徙模式。

4.The results of the oceanographic observation revealed significant changes in ocean currents over the past decade.

这项海洋观测的结果显示，在过去十年中海洋洋流发生了显著变化。

5.The research team conducted extensive oceanographic observation to understand the effects of climate change on marine life.

研究小组进行了广泛的海洋观测，以了解气候变化对海洋生物的影响。

作文

Oceanography is the study of the ocean and its various components, including marine organisms, ecosystems, and physical and chemical properties. One of the fundamental aspects of this field is oceanographic observation, which refers to the systematic collection of data about the ocean's conditions and phenomena. This practice is essential for understanding the dynamics of marine environments and their impact on global climate patterns.The significance of oceanographic observation cannot be overstated. Through these observations, scientists can monitor changes in sea temperature, salinity, currents, and nutrient levels. For example, the data collected can reveal trends in ocean warming, which has profound implications for marine life and weather systems. As the ocean absorbs much of the excess heat from climate change, understanding these changes helps researchers predict future environmental shifts.Moreover, oceanographic observation plays a crucial role in studying marine biodiversity. By observing different habitats, such as coral reefs, deep-sea trenches, and open ocean areas, scientists can assess the health of these ecosystems. For instance, regular monitoring of coral reefs through oceanographic observation can help identify signs of bleaching or disease, allowing for timely conservation efforts.Technological advancements have significantly enhanced oceanographic observation. Instruments such as buoys, autonomous underwater vehicles (AUVs), and satellite remote sensing have revolutionized the way data is collected. These tools allow for continuous monitoring of ocean conditions, providing real-time data that can be crucial for understanding sudden changes, such as those caused by natural disasters or human activities.In addition to aiding scientific research, oceanographic observation is vital for practical applications such as fisheries management and maritime navigation. By understanding fish populations and their migratory patterns through careful observation, fisheries can be managed sustainably, ensuring that fish stocks remain healthy for future generations. Similarly, accurate oceanographic data is essential for safe navigation, particularly in an era where shipping traffic is increasing.Despite its importance, oceanographic observation faces several challenges. Funding for ocean research is often limited, and many regions of the ocean remain under-observed. This lack of data can hinder our understanding of critical processes, such as ocean acidification or the impact of plastic pollution. Additionally, the vastness and depth of the ocean make it difficult to gather comprehensive data, leading to gaps in knowledge that need to be addressed.In conclusion, oceanographic observation is an indispensable aspect of oceanography that provides vital insights into the health and dynamics of our oceans. As we continue to face the challenges posed by climate change and human activity, enhancing our observation capabilities will be crucial for effective management and conservation of marine resources. Investing in technologies and funding for oceanographic observation will not only advance scientific knowledge but also contribute to the sustainability of our planet’s oceans for future generations.

海洋学是研究海洋及其各种组成部分的学科，包括海洋生物、生态系统以及物理和化学特性。这个领域的一个基本方面是海洋观测，它指的是对海洋条件和现象进行系统数据收集的过程。这一实践对于理解海洋环境的动态及其对全球气候模式的影响至关重要。海洋观测的重要性不容小觑。通过这些观测，科学家可以监测海水温度、盐度、洋流和养分水平的变化。例如，收集的数据可以揭示海洋变暖的趋势，这对海洋生物和天气系统具有深远的影响。随着海洋吸收了气候变化带来的大量多余热量，理解这些变化有助于研究人员预测未来的环境变化。此外，海洋观测在研究海洋生物多样性方面也发挥着至关重要的作用。通过观察不同的栖息地，如珊瑚礁、深海沟和开阔海域，科学家可以评估这些生态系统的健康状况。例如，通过海洋观测定期监测珊瑚礁，可以帮助识别白化或疾病的迹象，从而及时采取保护措施。技术进步显著增强了海洋观测的能力。浮标、自动化水下航行器（AUV）和卫星遥感等仪器彻底改变了数据收集方式。这些工具允许对海洋条件进行持续监测，提供实时数据，这对于理解自然灾害或人类活动造成的突发变化至关重要。除了辅助科学研究外，海洋观测对渔业管理和海上导航等实际应用也至关重要。通过仔细观察鱼类种群及其迁徙模式，渔业可以实现可持续管理，确保未来几代人仍能保持健康的鱼类资源。同样，准确的海洋数据对安全导航至关重要，尤其是在航运交通日益增加的时代。尽管海洋观测至关重要，但它面临着若干挑战。海洋研究的资金通常有限，许多海洋区域仍然缺乏观察。这种数据的缺乏可能会妨碍我们对关键过程的理解，例如海洋酸化或塑料污染的影响。此外，海洋的广阔和深度使得全面收集数据变得困难，导致知识的空白需要得到解决。总之，海洋观测是海洋学中不可或缺的一个方面，为我们提供了对海洋健康和动态的重要洞察。随着我们继续面临气候变化和人类活动带来的挑战，增强我们的观测能力对于有效管理和保护海洋资源至关重要。投资于海洋观测的技术和资金不仅将推动科学知识的发展，还将为我们星球海洋的可持续性做出贡献，以造福未来几代人。