bathymetric survey

简明释义

1. 水深测量; 2. 水深调查;

英英释义

例句

1.The coastal management team commissioned a bathymetric survey to assess sediment movement along the shoreline.

海岸管理团队委托进行了一项水深测量调查，以评估沿海岸线的沉积物运动。

2.Environmental scientists rely on bathymetric surveys to study the impact of climate change on marine ecosystems.

环境科学家依赖水深测量调查来研究气候变化对海洋生态系统的影响。

3.Using advanced sonar technology, the bathymetric survey revealed previously unknown underwater features.

利用先进的声纳技术，这项水深测量调查揭示了以前未知的水下特征。

4.The data collected from the bathymetric survey will help improve navigation safety in the shipping lanes.

从水深测量调查中收集的数据将有助于提高航运通道的导航安全性。

5.The research team conducted a detailed bathymetric survey to map the underwater topography of the lake.

研究小组进行了详细的水深测量调查，以绘制湖泊的水下地形图。

作文

A bathymetric survey is a crucial process in the field of oceanography and marine science. It involves measuring the depth of water bodies, primarily oceans, seas, and lakes, to create detailed maps of the underwater terrain. This information is not only essential for navigational safety but also plays a vital role in various scientific research areas, including ecology, geology, and climate studies. The data collected from a bathymetric survey can reveal important features of the seabed, such as underwater mountains, valleys, and other geological formations that influence marine life and ecosystems.Conducting a bathymetric survey typically involves the use of sophisticated technology, including sonar systems and satellite altimetry. Sonar, or Sound Navigation and Ranging, works by emitting sound waves from a vessel and measuring the time it takes for the waves to bounce back after hitting the seabed. This method allows researchers to create detailed three-dimensional models of the underwater landscape. Satellite altimetry, on the other hand, involves measuring the time it takes for radar signals to travel from a satellite to the ocean surface and back, providing data that can be used to infer bathymetric features over larger areas.One of the primary applications of bathymetric surveys is in the field of navigation. Accurate depth measurements are critical for safe maritime operations, especially for large vessels that require specific depths to avoid grounding. Additionally, these surveys are essential for the construction of underwater infrastructure, such as pipelines, cables, and wind farms. By understanding the underwater topography, engineers can design safer and more efficient projects.Moreover, bathymetric surveys are invaluable in environmental studies. They help scientists understand how underwater features affect ocean currents, sediment transport, and the distribution of marine species. For instance, coral reefs, which are vital ecosystems, often thrive in specific bathymetric conditions. By mapping these areas, researchers can better protect them from threats such as climate change and human activity.In recent years, the importance of bathymetric surveys has grown due to the increasing interest in renewable energy sources, particularly offshore wind farms. These projects require comprehensive bathymetric data to assess potential sites for development and to minimize environmental impact. As the demand for sustainable energy solutions continues to rise, the role of bathymetric surveys in supporting these initiatives becomes ever more significant.In conclusion, bathymetric surveys are an essential tool for understanding our planet's underwater environments. They provide critical data that supports navigation, infrastructure development, and environmental protection. As technology advances and our understanding of marine ecosystems deepens, the importance of bathymetric surveys will only continue to grow, highlighting the need for ongoing research and investment in this vital area of study.

水深测量调查是海洋学和海洋科学领域中的一个重要过程。它涉及测量水体的深度，主要是海洋、海洋和湖泊，以创建详细的水下地形图。这些信息不仅对航行安全至关重要，还在包括生态学、地质学和气候研究等多个科学研究领域中发挥着重要作用。从水深测量调查中收集的数据可以揭示海底的重要特征，如水下山脉、峡谷和其他影响海洋生物和生态系统的地质构造。进行水深测量调查通常涉及使用先进的技术，包括声纳系统和卫星高度计。声纳，即声波导航与测距，通过从船只发出声波并测量声波击中海底后返回所需的时间来工作。这种方法允许研究人员创建水下景观的详细三维模型。另一方面，卫星高度计涉及测量雷达信号从卫星到海面及返回所需的时间，提供可用于推断更大区域水深特征的数据。水深测量调查的主要应用之一是在导航领域。准确的深度测量对于安全的海事操作至关重要，特别是对需要特定深度以避免搁浅的大型船只。此外，这些调查对于建设水下基础设施（如管道、电缆和风电场）至关重要。通过了解水下地形，工程师可以设计更安全、更高效的项目。此外，水深测量调查在环境研究中也具有重要价值。它们帮助科学家理解水下特征如何影响海洋流动、沉积物运输和海洋物种的分布。例如，珊瑚礁作为重要的生态系统，往往在特定的水深条件下繁衍生息。通过绘制这些区域，研究人员可以更好地保护它们免受气候变化和人类活动的威胁。近年来，随着对可再生能源来源的兴趣日益增加，水深测量调查的重要性不断上升，特别是离岸风电场。这些项目需要全面的水深数据来评估开发的潜在地点，并尽量减少对环境的影响。随着对可持续能源解决方案的需求不断上升，水深测量调查在支持这些倡议中的作用变得愈发重要。总之，水深测量调查是理解我们星球水下环境的重要工具。它们提供关键数据，支持导航、基础设施开发和环境保护。随着技术的进步和我们对海洋生态系统的理解加深，水深测量调查的重要性只会继续增长，突显了在这一重要研究领域持续开展研究和投资的必要性。