automatic sounding buoy

简明释义

自动声响浮标

英英释义

例句

1.Using an automatic sounding buoy 自动测深浮标 can significantly reduce the time needed for depth measurements.

使用自动测深浮标 自动测深浮标可以显著减少深度测量所需的时间。

2.The research team deployed an automatic sounding buoy 自动测深浮标 to collect data on ocean temperatures.

研究小组部署了一个自动测深浮标 自动测深浮标以收集海洋温度数据。

3.An automatic sounding buoy 自动测深浮标 can operate autonomously for months at a time.

一个自动测深浮标 自动测深浮标可以自主运行数月之久。

4.Fishermen rely on the data from the automatic sounding buoy 自动测深浮标 to find the best fishing spots.

渔民依靠来自自动测深浮标 自动测深浮标的数据来寻找最佳捕鱼地点。

5.The automatic sounding buoy 自动测深浮标 is equipped with sensors that provide real-time data.

该自动测深浮标 自动测深浮标配备有提供实时数据的传感器。

作文

The oceans cover more than 70% of the Earth's surface, and understanding their depths is crucial for various scientific and navigational purposes. One of the most innovative tools used in oceanography is the automatic sounding buoy, which plays a vital role in measuring water depth and collecting various data about the marine environment. These buoys are equipped with advanced technology that allows them to operate autonomously, providing real-time information without the need for constant human intervention.An automatic sounding buoy is essentially a floating device that uses sonar technology to measure the depth of the water beneath it. It sends out sound waves that travel through the water and bounce back after hitting the seabed. By analyzing the time it takes for the sound waves to return, the buoy can accurately calculate the depth of the water. This information is invaluable for researchers studying underwater topography, marine ecosystems, and even for navigation purposes in shipping and fishing industries.Moreover, these buoys are designed to withstand harsh marine conditions. They are constructed with durable materials that resist corrosion and are equipped with solar panels or batteries to ensure they remain operational for extended periods. The data collected by an automatic sounding buoy can be transmitted via satellite or radio to research stations or vessels, allowing scientists and navigators to access critical information from remote locations.In addition to depth measurements, modern automatic sounding buoys can also gather a wide range of environmental data, such as water temperature, salinity, and currents. This multi-faceted approach to data collection is essential for understanding the complex interactions within marine ecosystems. For instance, changes in water temperature can affect fish migration patterns, while variations in salinity can influence the distribution of marine species. By utilizing these buoys, researchers can track these changes over time and gain insights into the health of ocean environments.Furthermore, the deployment of automatic sounding buoys has significant implications for climate research. The oceans act as a major carbon sink, absorbing large amounts of carbon dioxide from the atmosphere. Understanding how changes in ocean depth and temperature affect this process is crucial for predicting future climate scenarios. By continuously monitoring these parameters, scientists can develop more accurate models of climate change and its potential impacts on global weather patterns.In conclusion, the automatic sounding buoy is a remarkable technological advancement that enhances our understanding of the oceans. Its ability to operate independently while collecting vital data makes it an indispensable tool for oceanographers and environmental scientists alike. As we continue to explore and study our planet's oceans, the importance of such innovations cannot be overstated. The insights gained from these buoys will not only contribute to scientific knowledge but also help inform policies aimed at protecting our marine resources for future generations.

海洋覆盖了地球表面超过70%的面积，理解其深度对各种科学和导航目的至关重要。海洋学中使用的最创新工具之一是自动测深浮标，它在测量水深和收集有关海洋环境的各种数据方面发挥着重要作用。这些浮标配备了先进的技术，可以自主操作，提供实时信息，而无需持续的人为干预。自动测深浮标基本上是一个漂浮设备，使用声纳技术来测量其下方水域的深度。它发出声波，这些声波穿过水面并在撞击海床后反弹。通过分析声波返回所需的时间，浮标可以准确计算水的深度。这些信息对于研究水下地形、海洋生态系统，甚至航运和渔业等导航目的来说都是无价的。此外，这些浮标设计得能够抵御恶劣的海洋条件。它们采用耐腐蚀的耐用材料制造，并配备太阳能电池板或电池，以确保它们在较长时间内保持运行。由自动测深浮标收集的数据可以通过卫星或无线电传输到研究站或船只，使科学家和导航员能够从偏远地点访问关键数据。除了深度测量，现代的自动测深浮标还可以收集广泛的环境数据，如水温、盐度和水流。这种多方面的数据收集方法对理解海洋生态系统内部的复杂相互作用至关重要。例如，水温变化可能会影响鱼类迁徙模式，而盐度变化可能会影响海洋物种的分布。通过利用这些浮标，研究人员可以跟踪这些变化，并深入了解海洋环境的健康状况。此外，部署自动测深浮标对气候研究具有重要意义。海洋作为主要的碳汇，吸收了大量大气中的二氧化碳。了解海洋深度和温度变化如何影响这一过程对于预测未来的气候情景至关重要。通过持续监测这些参数，科学家可以开发出更准确的气候变化模型及其对全球天气模式的潜在影响。总之，自动测深浮标是一项显著的技术进步，增强了我们对海洋的理解。它独立操作并收集重要数据的能力使其成为海洋学家和环境科学家不可或缺的工具。随着我们继续探索和研究地球的海洋，这类创新的重要性不容小觑。从这些浮标获得的见解不仅将有助于科学知识的发展，还将帮助制定旨在保护我们海洋资源的政策，以造福未来几代人。