sounding diagram

简明释义

测深图表

英英释义

例句

1.The sounding diagram helped the researchers understand the underwater topography.

该声测图帮助研究人员理解水下地形。

2.The marine engineer presented the sounding diagram to illustrate the depth measurements of the harbor.

海洋工程师展示了声测图以说明港口的深度测量。

3.During the survey, we collected data that was plotted on a sounding diagram for analysis.

在调查过程中，我们收集的数据被绘制在声测图上以便分析。

4.To ensure safety, the captain reviewed the sounding diagram before navigating through the shallow waters.

为了确保安全，船长在穿越浅水区之前查看了声测图。

5.The sounding diagram indicated a significant drop in depth near the coastline.

该声测图显示沿海附近深度有显著下降。

作文

In the field of marine science and oceanography, understanding the physical characteristics of bodies of water is crucial. One of the key tools used by scientists and researchers is the sounding diagram, which provides a visual representation of the depths and contours of the seabed. A sounding diagram (声呐图) is essentially a graphical illustration that shows the variations in depth across a specific area of water. This information is vital for various applications, including navigation, fishing, and environmental monitoring.The process of creating a sounding diagram begins with the collection of depth data using sonar technology. Sonar, which stands for Sound Navigation and Ranging, emits sound waves that travel through the water and bounce back after hitting the seabed. By measuring the time it takes for the sound waves to return, researchers can calculate the depth of the water at different points. This data is then plotted on a graph to create the sounding diagram.One of the primary uses of a sounding diagram is in navigation. Ships and boats rely on accurate depth information to avoid running aground. By consulting a sounding diagram, mariners can determine safe routes and identify areas of shallow water. This is particularly important in coastal regions where the seabed may change frequently due to tides, currents, or sediment deposition.Additionally, a sounding diagram plays a significant role in fishing. Fishermen use these diagrams to locate underwater structures such as reefs, drop-offs, and wrecks, which are often hotspots for fish activity. By understanding the topography of the seabed through a sounding diagram, fishermen can increase their chances of a successful catch.Environmental monitoring is another critical application of sounding diagrams. Scientists use these diagrams to study changes in the seabed over time, which can be indicative of natural processes such as erosion or sedimentation. By comparing historical sounding diagrams with current data, researchers can assess the health of marine ecosystems and make informed decisions about conservation efforts.Moreover, sounding diagrams are essential in the planning and construction of underwater infrastructure such as pipelines, cables, and wind farms. Engineers need detailed information about the seabed to ensure that these projects are safe and effective. A well-constructed sounding diagram can help identify potential hazards and inform design decisions.In conclusion, the sounding diagram (声呐图) is an invaluable tool in marine science and various industries that depend on accurate depth information. Whether for navigation, fishing, environmental monitoring, or infrastructure development, the insights provided by a sounding diagram are crucial for sustainable practices and safety in marine environments. As technology continues to advance, the accuracy and detail of sounding diagrams will undoubtedly improve, leading to even greater benefits for researchers, mariners, and the marine ecosystem as a whole.

在海洋科学和海洋学领域，了解水体的物理特征至关重要。科学家和研究人员使用的关键工具之一是声呐图，它提供了海底深度和轮廓的可视化表示。声呐图（sounding diagram）本质上是一个图形插图，显示特定水域内的深度变化。这些信息对于各种应用至关重要，包括导航、捕鱼和环境监测。创建声呐图的过程始于使用声纳技术收集深度数据。声纳代表声波导航和测距，它发出声波，这些声波通过水传播，并在撞击海底后反弹。通过测量声波返回所需的时间，研究人员可以计算不同点的水深。然后将这些数据绘制在图表上以创建声呐图。声呐图的主要用途之一是在导航中。船只依赖准确的深度信息以避免搁浅。通过参考声呐图，航海者可以确定安全航线并识别浅水区域。这在潮汐、洋流或沉积物沉积可能频繁改变海底的沿海地区尤为重要。此外，声呐图在捕鱼方面也发挥着重要作用。渔民利用这些图表来定位水下结构，例如礁石、落差和沉船，这些通常是鱼类活动的热点。通过了解海底的地形，渔民可以增加成功捕捞的机会。环境监测是声呐图的另一个关键应用。科学家利用这些图表研究海底随时间变化的情况，这可能表明自然过程，如侵蚀或沉积。通过将历史声呐图与当前数据进行比较，研究人员可以评估海洋生态系统的健康状况，并就保护工作做出明智的决策。此外，声呐图在水下基础设施建设的规划和施工中至关重要，例如管道、电缆和风电场。工程师需要关于海底的详细信息，以确保这些项目的安全和有效。精心构建的声呐图可以帮助识别潜在危险并通知设计决策。总之，声呐图（sounding diagram）是海洋科学和各个依赖准确深度信息的行业中不可或缺的工具。无论是用于导航、捕鱼、环境监测还是基础设施开发，声呐图提供的见解对可持续实践和海洋环境的安全至关重要。随着技术的不断进步，声呐图的准确性和细节无疑会提高，从而为研究人员、航海者和整个海洋生态系统带来更大的益处。