acoustic buoy

简明释义

声响浮标

英英释义

例句

1.During the oceanographic survey, we relied on an acoustic buoy for real-time data transmission.

在海洋调查期间，我们依赖一个声学浮标进行实时数据传输。

2.The acoustic buoy was equipped with sensors to detect fish populations.

这个声学浮标配备了传感器来检测鱼类种群。

3.Using an acoustic buoy helps scientists gather data on underwater noise pollution.

使用声学浮标可以帮助科学家收集水下噪音污染的数据。

4.The research vessel deployed an acoustic buoy to monitor marine life in the area.

研究船部署了一个声学浮标来监测该地区的海洋生物。

5.An acoustic buoy can be used to track the movement of whales in their natural habitat.

可以使用声学浮标追踪鲸鱼在其自然栖息地中的移动。

作文

In recent years, the development of marine technology has led to significant advancements in underwater communication and monitoring systems. Among these innovations, the acoustic buoy plays a crucial role in enhancing our understanding of oceanic environments. An acoustic buoy (声学浮标) is essentially a floating device equipped with underwater microphones and transmitters that can detect and relay sound signals from the depths of the ocean. This technology not only aids in scientific research but also has practical applications in navigation, fishing, and environmental monitoring.The primary function of an acoustic buoy is to capture sounds produced by marine life, underwater currents, and even human activities such as shipping and construction. By analyzing these sounds, researchers can gain insights into the behavior of various marine species, track migration patterns, and assess the overall health of marine ecosystems. For instance, the sounds made by whales and dolphins can reveal important information about their social interactions and habitat use.Moreover, acoustic buoys are instrumental in monitoring environmental changes. They can detect shifts in sound patterns that may indicate changes in water temperature, salinity, or pollution levels. This data is vital for scientists studying climate change and its impact on marine life. By deploying a network of acoustic buoys across different oceanic regions, researchers can create a comprehensive picture of how soundscapes are changing over time.In addition to their research applications, acoustic buoys also serve practical purposes in maritime navigation. They can provide real-time information about underwater obstacles and hazards, helping to ensure the safety of vessels traversing busy shipping lanes. Fishermen utilize acoustic buoys to locate schools of fish, as these devices can detect the sounds made by marine organisms, thereby increasing the efficiency of fishing operations.However, the deployment of acoustic buoys is not without challenges. The harsh conditions of the ocean can affect the durability and functionality of these devices. Ensuring that they remain operational in extreme weather and varying water conditions is essential for accurate data collection. Additionally, there are concerns about the potential impact of human-made noise pollution on marine life, which can interfere with the effectiveness of acoustic buoys. As more ships and underwater construction projects increase, it becomes increasingly important to manage and mitigate these acoustic disturbances.In conclusion, the acoustic buoy (声学浮标) represents a significant advancement in marine technology, offering valuable tools for research and practical applications. Its ability to monitor and analyze underwater sounds provides critical insights into the health of our oceans and the behavior of marine life. As we continue to explore and understand the complexities of our marine environments, the importance of acoustic buoys will undoubtedly grow, paving the way for more sustainable practices in ocean management and conservation.

近年来，海洋技术的发展使得水下通信和监测系统取得了显著进展。在这些创新中，声学浮标发挥着至关重要的作用，增强了我们对海洋环境的理解。声学浮标（acoustic buoy）本质上是一种浮动设备，配备有水下麦克风和发射器，可以检测并传递来自海洋深处的声波信号。这项技术不仅有助于科学研究，还有在导航、捕鱼和环境监测等实际应用。声学浮标的主要功能是捕捉海洋生物、水下水流甚至人类活动（如航运和建筑）产生的声音。通过分析这些声音，研究人员可以深入了解各种海洋物种的行为，追踪迁徙模式，并评估海洋生态系统的整体健康。例如，鲸鱼和海豚发出的声音可以揭示有关其社会互动和栖息地使用的重要信息。此外，声学浮标在监测环境变化方面也发挥着重要作用。它们可以检测到声音模式的变化，这可能表明水温、盐度或污染水平的变化。这些数据对于研究气候变化及其对海洋生物影响的科学家至关重要。通过在不同海洋区域部署一系列声学浮标，研究人员能够创建出声音景观随时间变化的全面图景。除了研究应用，声学浮标在海事导航中也发挥着实际作用。它们可以提供有关水下障碍物和危险的实时信息，帮助确保船只在繁忙航道中的安全通行。渔民利用声学浮标定位鱼群，因为这些设备可以检测海洋生物发出的声音，从而提高捕鱼作业的效率。然而，声学浮标的部署并非没有挑战。海洋的恶劣条件可能会影响这些设备的耐用性和功能性。确保它们在极端天气和变化的水域条件下保持正常运行，对于准确的数据收集至关重要。此外，人为噪音污染对海洋生物潜在影响的担忧，也可能干扰声学浮标的有效性。随着船舶和水下建设项目的增加，管理和减轻这些声学干扰变得愈发重要。总之，声学浮标（acoustic buoy）代表了海洋技术的一项重大进步，提供了宝贵的研究工具和实际应用。它监测和分析水下声音的能力，为我们提供了关于海洋健康和海洋生物行为的重要见解。随着我们继续探索和理解海洋环境的复杂性，声学浮标的重要性无疑将会增长，为海洋管理和保护的可持续实践铺平道路。