synoptic oceanography

简明释义

天气海洋学

英英释义

例句

1.The study of ocean currents often relies on techniques from synoptic oceanography 综合海洋学 to provide a comprehensive overview.

对海洋洋流的研究通常依赖于来自synoptic oceanography 综合海洋学 的技术，以提供全面的概述。

2.A workshop on synoptic oceanography 综合海洋学 was held to discuss regional oceanographic changes.

举办了一场关于synoptic oceanography 综合海洋学 的研讨会，讨论区域海洋变化。

3.Researchers used synoptic oceanography 综合海洋学 to analyze the impact of climate change on marine ecosystems.

研究人员使用synoptic oceanography 综合海洋学 分析气候变化对海洋生态系统的影响。

4.The findings from synoptic oceanography 综合海洋学 can help predict weather patterns more accurately.

来自synoptic oceanography 综合海洋学 的发现可以帮助更准确地预测天气模式。

5.In synoptic oceanography 综合海洋学, satellite data plays a crucial role in monitoring sea surface temperatures.

在synoptic oceanography 综合海洋学 中，卫星数据在监测海表温度方面发挥着至关重要的作用。

作文

The field of oceanography plays a crucial role in enhancing our understanding of the world's oceans. Among its various branches, synoptic oceanography stands out as a vital area of study that focuses on the large-scale, systematic observation and analysis of oceanic phenomena. This discipline seeks to provide a comprehensive overview of ocean conditions by integrating data from various sources and employing advanced technologies. By examining oceanographic variables such as temperature, salinity, currents, and biological activity over extensive areas, synoptic oceanography enables scientists to identify patterns and trends that may not be apparent from localized studies.One of the primary objectives of synoptic oceanography is to understand the dynamic interactions between the ocean and the atmosphere. These interactions significantly influence global climate systems, weather patterns, and marine ecosystems. For instance, by utilizing satellite remote sensing, researchers can gather real-time data on sea surface temperatures and chlorophyll concentrations across vast regions. This information is essential for predicting phenomena like El Niño and La Niña, which have far-reaching impacts on both marine life and human activities.Moreover, synoptic oceanography facilitates the study of ocean circulation patterns, which are critical for understanding heat distribution across the planet. The ocean acts as a massive heat reservoir, absorbing solar energy and redistributing it through currents. By analyzing synoptic data, oceanographers can track these currents and assess their role in regulating climate. This knowledge is vital for developing climate models and informing policy decisions related to climate change mitigation.In addition to its contributions to climate science, synoptic oceanography also plays a significant role in marine resource management. By providing insights into the distribution and abundance of marine species, this field aids in the sustainable management of fisheries and conservation efforts. Understanding how oceanic conditions affect fish populations allows for better forecasting of catch yields and the implementation of effective management strategies.Furthermore, synoptic oceanography has applications in disaster preparedness and response. For example, knowledge of ocean currents and wave patterns can help predict the impact of tsunamis and storm surges on coastal communities. By integrating oceanographic data with meteorological forecasts, authorities can issue timely warnings and implement evacuation plans to minimize loss of life and property.In conclusion, synoptic oceanography is an indispensable component of modern oceanographic research. Its emphasis on large-scale observations and data integration provides valuable insights into the complex interplay between the ocean and the atmosphere. As we continue to face challenges related to climate change, marine resource management, and natural disasters, the importance of synoptic oceanography will only grow. By investing in this field and leveraging technological advancements, we can enhance our understanding of the oceans and their vital role in sustaining life on Earth.

海洋学领域在增强我们对世界海洋的理解方面发挥着至关重要的作用。在其各个分支中，综合海洋学作为一个重要的研究领域，专注于海洋现象的大规模、系统观察和分析。该学科通过整合来自各种来源的数据并采用先进技术，旨在提供海洋条件的全面概述。通过检查温度、盐度、洋流和生物活动等海洋变量在广泛区域的变化，综合海洋学使科学家能够识别出在局部研究中可能不明显的模式和趋势。综合海洋学的主要目标之一是理解海洋与大气之间的动态相互作用。这些相互作用对全球气候系统、天气模式和海洋生态系统产生重大影响。例如，通过利用卫星遥感技术，研究人员可以收集关于广泛区域海表温度和叶绿素浓度的实时数据。这些信息对于预测厄尔尼诺和拉尼娜等现象至关重要，这些现象对海洋生物和人类活动都有深远的影响。此外，综合海洋学促进了对海洋环流模式的研究，这对于理解热量在地球上的分布至关重要。海洋作为一个巨大的热量储存库，吸收太阳能并通过洋流重新分配这些能量。通过分析综合数据，海洋学家可以追踪这些洋流并评估它们在调节气候中的作用。这一知识对于发展气候模型和为应对气候变化提供政策决策至关重要。除了对气候科学的贡献外，综合海洋学在海洋资源管理中也起着重要作用。通过提供有关海洋物种分布和丰度的见解，该领域有助于渔业的可持续管理和保护工作。了解海洋条件如何影响鱼类种群，有助于更好地预测捕捞产量并实施有效的管理策略。此外，综合海洋学在灾害准备和响应中也具有应用价值。例如，对海洋洋流和波浪模式的知识可以帮助预测海啸和风暴潮对沿海社区的影响。通过将海洋数据与气象预测相结合，当局可以及时发布警报并实施撤离计划，以最大限度地减少生命和财产损失。总之，综合海洋学是现代海洋研究不可或缺的组成部分。它强调大规模观察和数据整合，为理解海洋与大气之间复杂的相互作用提供了宝贵的见解。随着我们继续面临与气候变化、海洋资源管理和自然灾害相关的挑战，综合海洋学的重要性只会增加。通过投资于这一领域并利用技术进步，我们可以增强对海洋的理解及其在维持地球生命中的重要作用。