anchored radio-sono-buoy

简明释义

锚泊无线电声纳浮标

英英释义

例句

1.We relied on the anchored radio-sono-buoy to transmit signals from deep-sea explorations.

我们依赖于锚定声波浮标从深海探测中传输信号。

2.Using an anchored radio-sono-buoy allowed us to collect accurate data on underwater currents.

使用锚定声波浮标使我们能够收集关于水下洋流的准确数据。

3.The anchored radio-sono-buoy provided real-time acoustic monitoring for our oceanographic studies.

该锚定声波浮标为我们的海洋学研究提供了实时声学监测。

4.The deployment of an anchored radio-sono-buoy was crucial for tracking whale migrations.

部署锚定声波浮标对追踪鲸鱼迁徙至关重要。

5.The research team deployed an anchored radio-sono-buoy to monitor marine life in the area.

研究小组部署了一个锚定声波浮标以监测该区域的海洋生物。

作文

In recent years, advancements in technology have significantly improved our understanding of ocean dynamics and marine life. One of the most innovative tools in this field is the anchored radio-sono-buoy (锚固无线声波浮标). This device plays a crucial role in underwater acoustics and marine research, serving as a vital link between the surface and the depths of the ocean. The anchored radio-sono-buoy is designed to be deployed in various marine environments, where it can collect valuable data about underwater soundscapes. These buoys are anchored to the sea floor, ensuring stability and continuous operation even in rough sea conditions. By utilizing advanced acoustic sensors, they can capture sounds produced by marine animals, geological activities, and human impacts such as shipping and fishing. This capability is essential for researchers studying marine biodiversity and the effects of climate change on ocean habitats.One of the primary benefits of using an anchored radio-sono-buoy is its ability to monitor and analyze sound patterns over extended periods. Traditional methods of marine research often involve short-term studies that may not provide a comprehensive picture of marine life and environmental changes. In contrast, these buoys can remain in place for months or even years, continuously gathering data that can reveal long-term trends and shifts in marine ecosystems.Furthermore, the data collected by the anchored radio-sono-buoy can be transmitted in real-time to researchers on land. This immediate access to information allows scientists to respond quickly to emerging issues, such as unusual animal behaviors or sudden changes in environmental conditions. For instance, if a significant increase in underwater noise is detected, researchers can investigate the potential causes and take necessary actions to mitigate any negative impacts on marine life.The applications of the anchored radio-sono-buoy extend beyond academic research. Environmental organizations and government agencies can utilize the data to inform policy decisions related to marine conservation and management. By understanding how human activities affect marine ecosystems, stakeholders can develop strategies to protect vulnerable species and habitats.Moreover, the anchored radio-sono-buoy contributes to our understanding of climate change. As ocean temperatures rise and ice caps melt, marine species are forced to adapt to new conditions. The acoustic data gathered from these buoys can help scientists track these changes and assess the health of various populations. This information is crucial for developing effective conservation efforts and ensuring the sustainability of marine resources for future generations.In conclusion, the anchored radio-sono-buoy (锚固无线声波浮标) represents a significant advancement in marine research technology. Its ability to provide continuous, real-time data on underwater acoustics opens up new avenues for understanding the complexities of marine ecosystems. As we face increasing challenges related to climate change and human impact on the oceans, tools like the anchored radio-sono-buoy will be essential for informing our efforts to protect and preserve the vital resources of our planet's oceans.

近年来，技术的进步显著提高了我们对海洋动态和海洋生物的理解。在这个领域中，最具创新性的工具之一是锚固无线声波浮标。该设备在水下声学和海洋研究中发挥着关键作用，作为海面与海洋深处之间的重要联系。锚固无线声波浮标旨在部署在各种海洋环境中，可以收集有关水下声景的宝贵数据。这些浮标固定在海底，确保其稳定性和在恶劣海况下的持续运行。通过利用先进的声学传感器，它们能够捕捉海洋动物、地质活动以及人类影响（如航运和捕鱼）产生的声音。这一能力对于研究海洋生物多样性和气候变化对海洋栖息地的影响至关重要。使用锚固无线声波浮标的主要好处之一是其能够长期监测和分析声音模式。传统的海洋研究方法通常涉及短期研究，可能无法提供海洋生物和环境变化的全面图景。相比之下，这些浮标可以在原地保持数月甚至数年，持续收集数据，从而揭示海洋生态系统的长期趋势和变化。此外，锚固无线声波浮标收集的数据可以实时传输给陆地上的研究人员。这种对信息的即时访问使科学家能够迅速应对新出现的问题，例如不寻常的动物行为或环境条件的突然变化。例如，如果检测到水下噪声显著增加，研究人员可以调查潜在原因并采取必要措施，以减轻对海洋生物的负面影响。锚固无线声波浮标的应用超越了学术研究。环保组织和政府机构可以利用这些数据来告知与海洋保护和管理相关的政策决策。通过了解人类活动如何影响海洋生态系统，利益相关者可以制定保护脆弱物种和栖息地的战略。此外，锚固无线声波浮标有助于我们理解气候变化。随着海洋温度上升和冰盖融化，海洋物种被迫适应新条件。从这些浮标收集的声学数据可以帮助科学家跟踪这些变化，并评估各种种群的健康状况。这些信息对于制定有效的保护工作至关重要，确保未来几代人能够可持续地利用海洋资源。总之，锚固无线声波浮标代表了海洋研究技术的重要进步。它提供的关于水下声学的连续实时数据为理解海洋生态系统的复杂性开辟了新的途径。随着我们面临与气候变化和人类对海洋影响相关的日益严峻的挑战，像锚固无线声波浮标这样的工具将对我们保护和维护地球海洋的重要资源至关重要。