acoustic telemetry bathythermometer

简明释义

声遥测海水温度计

英英释义

例句

1.The data collected by the acoustic telemetry bathythermometer helped predict fish migration patterns.

由声学遥测温度计收集的数据帮助预测鱼类迁徙模式。

2.The research team deployed an acoustic telemetry bathythermometer to monitor temperature changes in the deep ocean.

研究小组部署了一个声学遥测温度计来监测深海的温度变化。

3.During the expedition, the crew relied on an acoustic telemetry bathythermometer to ensure accurate readings.

在探险期间，船员依靠声学遥测温度计来确保读数准确。

4.The acoustic telemetry bathythermometer is crucial for understanding the thermal structure of the ocean.

这个声学遥测温度计对于理解海洋的热结构至关重要。

5.Using an acoustic telemetry bathythermometer, scientists can gather real-time data on water temperatures in remote locations.

科学家们使用声学遥测温度计可以在偏远地区收集水温的实时数据。

作文

The ocean is a vast and mysterious place, teeming with life and hidden wonders. To explore this underwater world, scientists have developed various tools and technologies. One such innovative instrument is the acoustic telemetry bathythermometer, which plays a crucial role in oceanographic research. This device not only measures temperature at different depths but also transmits data acoustically, allowing researchers to gather vital information without the need for physical retrieval of equipment.The acoustic telemetry bathythermometer combines two essential functions: temperature measurement and acoustic telemetry. Temperature is a fundamental parameter in ocean studies, as it influences marine ecosystems, ocean currents, and climate patterns. By accurately measuring temperature at various depths, scientists can better understand how these factors interact and affect marine life.Acoustic telemetry, on the other hand, refers to the use of sound waves to transmit data over long distances underwater. Traditional methods of data collection often require researchers to deploy instruments that must be retrieved after a certain period. This process can be time-consuming and may disrupt the natural environment. However, with the acoustic telemetry bathythermometer, data is transmitted in real-time, allowing scientists to monitor conditions continuously and make informed decisions based on up-to-date information.The design of the acoustic telemetry bathythermometer is quite sophisticated. It typically consists of a temperature sensor that is capable of withstanding high pressures found in deep waters. The sensor collects temperature readings at set intervals, and the data is then encoded and sent as acoustic signals to a surface buoy or a nearby research vessel. This innovative method ensures that researchers can obtain valuable data without having to disturb the underwater environment frequently.One of the significant advantages of using an acoustic telemetry bathythermometer is its ability to cover large areas of the ocean efficiently. Traditional methods might involve deploying multiple instruments across various locations, which can be logistically challenging and expensive. In contrast, the acoustic telemetry system allows for a network of devices to communicate with each other, providing a more comprehensive picture of the ocean's temperature profile over time.In recent years, the application of the acoustic telemetry bathythermometer has expanded beyond just temperature monitoring. Researchers are now using this technology to study phenomena such as climate change, ocean acidification, and the impact of human activities on marine ecosystems. For example, by analyzing temperature trends over time, scientists can assess the health of coral reefs and predict potential bleaching events, which are increasingly common due to rising sea temperatures.Moreover, the data collected through this technology can also aid in the conservation of marine species. Many aquatic animals rely on specific temperature ranges for breeding and feeding. By understanding how temperature fluctuations affect their habitats, conservationists can implement strategies to protect vulnerable species from the impacts of climate change.In conclusion, the acoustic telemetry bathythermometer is an invaluable tool in the field of oceanography. Its ability to measure temperature and transmit data acoustically enhances our understanding of the complex interactions within marine environments. As we continue to face challenges posed by climate change and human activity, technologies like the acoustic telemetry bathythermometer will be essential in helping us monitor and protect our oceans for future generations.

海洋是一个广阔而神秘的地方，充满了生命和隐藏的奇迹。为了探索这个水下世界，科学家们开发了各种工具和技术。其中一种创新的仪器是声学遥测温度计，它在海洋研究中发挥着至关重要的作用。该设备不仅可以测量不同深度的温度，还能通过声学方式传输数据，使研究人员能够收集重要信息，而无需物理回收设备。声学遥测温度计结合了两个基本功能：温度测量和声学遥测。温度是海洋研究中的一个基本参数，因为它影响海洋生态系统、洋流和气候模式。通过准确测量不同深度的温度，科学家们可以更好地理解这些因素如何相互作用并影响海洋生物。另一方面，声学遥测是指使用声波在水下长距离传输数据。传统的数据收集方法通常要求研究人员部署必须在一定时间后回收的仪器。这一过程可能耗时且可能干扰自然环境。然而，借助声学遥测温度计，数据实时传输，使科学家能够持续监测条件，并根据最新信息做出明智的决策。声学遥测温度计的设计相当复杂。它通常由一个能够承受深水高压的温度传感器组成。传感器以设定的间隔收集温度读数，然后将数据编码并作为声学信号发送到表面浮标或附近的研究船。这种创新的方法确保研究人员能够获得有价值的数据，而不必频繁打扰水下环境。使用声学遥测温度计的一个显著优势是其高效覆盖大面积海洋的能力。传统方法可能涉及在各个位置部署多个仪器，这在后勤上具有挑战性且成本高昂。相比之下，声学遥测系统允许一组设备相互通信，从而提供海洋温度轮廓的更全面视图。近年来，声学遥测温度计的应用已超越温度监测。研究人员现在正在利用这一技术研究气候变化、海洋酸化以及人类活动对海洋生态系统的影响等现象。例如，通过分析温度趋势，科学家可以评估珊瑚礁的健康状况，并预测潜在的白化事件，这在海洋温度上升的情况下越来越常见。此外，通过这项技术收集的数据还可以帮助保护海洋物种。许多水生动物依赖特定的温度范围进行繁殖和觅食。通过了解温度波动如何影响它们的栖息地，保护主义者可以实施策略，以保护易受气候变化影响的脆弱物种。总之，声学遥测温度计是海洋学领域中一项无价的工具。它测量温度和声学传输数据的能力增强了我们对海洋环境中复杂相互作用的理解。随着我们继续面临气候变化和人类活动带来的挑战，像声学遥测温度计这样的技术将在帮助我们监测和保护海洋方面对未来几代人至关重要。