bathymetric system

简明释义

1. 深海测深系统; 2. 海洋测深系统;

英英释义

例句

1.Using a bathymetric system, scientists discovered new underwater geological formations.

科学家们通过使用水深测量系统发现了新的水下地质构造。

2.The bathymetric system can help identify potential hazards for shipping routes.

水深测量系统可以帮助识别航运路线上的潜在危险。

3.The marine researchers used a bathymetric system to map the ocean floor accurately.

海洋研究人员使用水深测量系统准确绘制海底地图。

4.A state-of-the-art bathymetric system was deployed to study underwater ecosystems.

一个最先进的水深测量系统被部署用来研究水下生态系统。

5.The bathymetric system provides essential data for navigation and fishing industries.

水深测量系统为航海和渔业提供了重要数据。

作文

The study of oceanography encompasses various aspects of marine science, and one of its critical components is the bathymetric system. This bathymetric system refers to the measurement and mapping of the depths of the ocean floor. Understanding the underwater topography is essential for numerous reasons, including navigation, marine biology, and environmental protection. The importance of a bathymetric system cannot be overstated, as it provides vital information that helps scientists and researchers understand ocean dynamics and ecosystems.To begin with, a bathymetric system plays a crucial role in navigation. Accurate maps of the ocean floor are necessary for safe shipping routes. Ships must avoid underwater obstacles, such as submerged rocks or wrecks, which can pose significant dangers. By utilizing advanced technologies like sonar, researchers can create detailed bathymetric maps that guide vessels safely through treacherous waters. Without a reliable bathymetric system, maritime trade could be jeopardized, leading to economic losses and potential disasters at sea.Moreover, the bathymetric system is vital for marine biology. Different species of marine life inhabit specific depths and terrains of the ocean. By understanding the bathymetry, scientists can identify habitats and study the biodiversity present in various regions. For example, coral reefs thrive in shallow waters, while deep-sea creatures may dwell in the abyssal plains. A comprehensive bathymetric system allows researchers to explore these habitats and monitor changes due to climate change, pollution, and human activities. This information is crucial for conservation efforts, as it helps identify areas that require protection and management.Furthermore, the bathymetric system contributes to our understanding of geological processes. The ocean floor is not static; it is constantly changing due to tectonic activity, sedimentation, and erosion. By studying bathymetric data, scientists can gain insights into underwater volcanic eruptions, earthquakes, and the formation of underwater mountains and valleys. This knowledge is essential for predicting natural disasters and understanding the Earth's geological history.In addition, the bathymetric system is increasingly important in the context of climate change. Rising sea levels and changing ocean temperatures significantly impact marine ecosystems and coastal communities. By monitoring the bathymetry of coastal regions, scientists can assess vulnerability to flooding and erosion. This data is invaluable for urban planning and disaster management, helping communities prepare for and mitigate the effects of climate change.In conclusion, the bathymetric system is an indispensable tool in the field of oceanography. It facilitates safe navigation, enhances our understanding of marine biodiversity, aids in geological research, and helps address the challenges posed by climate change. As technology continues to advance, the accuracy and detail of bathymetric mapping will improve, providing even more valuable insights into our oceans. Therefore, investing in and supporting research related to the bathymetric system is crucial for the sustainable management of our planet's marine resources and environments.

海洋学的研究涵盖了海洋科学的各个方面，其中一个关键组成部分是海底测量系统。这个海底测量系统是指对海洋底部深度的测量和绘制。理解水下地形对于导航、海洋生物学和环境保护等多个原因至关重要。海底测量系统的重要性不容小觑，因为它提供了帮助科学家和研究人员理解海洋动态和生态系统的重要信息。首先，海底测量系统在导航中发挥着至关重要的作用。准确的海洋底部地图对于安全航行至关重要。船只必须避免水下障碍物，如淹没的岩石或沉船，这些都可能构成重大危险。通过利用先进的技术如声纳，研究人员可以创建详细的海底测量地图，以安全地引导船只通过危险水域。如果没有可靠的海底测量系统，海上贸易可能会受到威胁，从而导致经济损失和潜在的海上灾难。此外，海底测量系统对海洋生物学至关重要。不同物种的海洋生物栖息在海洋的特定深度和地形中。通过了解海底地形，科学家可以识别栖息地并研究各个区域的生物多样性。例如，珊瑚礁在浅水区繁茂，而深海生物可能生活在深渊平原。全面的海底测量系统使研究人员能够探索这些栖息地，并监测气候变化、污染和人类活动带来的变化。这些信息对于保护工作至关重要，因为它有助于识别需要保护和管理的区域。此外，海底测量系统有助于我们理解地质过程。海底并不是静态的；它由于构造活动、沉积和侵蚀而不断变化。通过研究海底测量数据，科学家可以获得有关水下火山爆发、地震以及水下山脉和谷地形成的见解。这些知识对于预测自然灾害和理解地球的地质历史至关重要。此外，海底测量系统在气候变化背景下变得越来越重要。海平面上升和海洋温度变化对海洋生态系统和沿海社区产生重大影响。通过监测沿海地区的海底地形，科学家可以评估洪水和侵蚀的脆弱性。这些数据对于城市规划和灾害管理至关重要，帮助社区为气候变化的影响做好准备并减轻其影响。总之，海底测量系统是海洋学领域不可或缺的工具。它促进了安全导航，增强了我们对海洋生物多样性的理解，有助于地质研究，并帮助应对气候变化带来的挑战。随着技术的不断进步，海底测量的准确性和细节将得到改善，为我们提供更有价值的海洋洞察。因此，投资和支持与海底测量系统相关的研究对于可持续管理我们星球的海洋资源和环境至关重要。