subaqueous survey

简明释义

水下测量

英英释义

例句

1.The results of the subaqueous survey revealed significant changes in the underwater landscape over the past decade.

这项水下调查的结果显示，在过去十年中水下景观发生了显著变化。

2.The marine biologists conducted a subaqueous survey to assess the health of the coral reefs.

海洋生物学家进行了一项水下调查以评估珊瑚礁的健康状况。

3.The environmental agency commissioned a subaqueous survey to monitor pollution levels in the river.

环境机构委托进行了一项水下调查以监测河流中的污染水平。

4.To locate sunken ships, archaeologists often rely on subaqueous surveys as part of their research.

考古学家通常依赖于水下调查作为研究的一部分来定位沉船。

5.Using advanced sonar technology, the team completed a detailed subaqueous survey of the lake bed.

利用先进的声纳技术，团队完成了对湖床的详细水下调查。

作文

The term subaqueous survey refers to the process of conducting surveys underwater, typically in bodies of water such as rivers, lakes, and oceans. This practice is essential for various fields, including marine archaeology, environmental monitoring, and underwater construction. The importance of subaqueous survey cannot be overstated, as it provides critical data that informs decision-making processes related to aquatic environments.One of the primary applications of subaqueous survey is in marine archaeology. Archaeologists often seek to uncover artifacts and structures submerged beneath the water's surface. Through the use of advanced technologies such as sonar mapping and remotely operated vehicles (ROVs), researchers can explore underwater sites that are otherwise inaccessible. This not only helps in preserving historical artifacts but also enhances our understanding of past civilizations that thrived near water bodies.Moreover, subaqueous survey plays a crucial role in environmental monitoring. As human activities increasingly impact aquatic ecosystems, it becomes essential to assess the health of these environments. Surveys conducted underwater can help scientists gather data on water quality, sediment composition, and the presence of aquatic life. This information is vital for developing conservation strategies and ensuring the sustainability of marine resources.In addition to archaeology and environmental studies, subaqueous survey is also significant in the field of underwater construction. Engineers and construction companies must understand the underwater landscape before undertaking projects such as bridge building, pipeline installation, or offshore wind farms. Accurate surveys allow them to identify potential hazards, such as submerged rocks or wreckage, and to plan accordingly. This not only enhances safety but also reduces costs associated with unforeseen complications during construction.Technological advancements have greatly improved the efficiency and accuracy of subaqueous survey. For instance, the development of multi-beam sonar systems allows for detailed mapping of the seabed, capturing high-resolution images that reveal intricate details of underwater topography. Furthermore, the integration of Geographic Information Systems (GIS) enables researchers to analyze survey data more effectively, leading to better-informed decisions regarding resource management and conservation efforts.However, despite its benefits, subaqueous survey also faces challenges. One major issue is the impact of climate change on aquatic environments. Rising sea levels and increasing water temperatures can alter the conditions under which surveys are conducted, potentially affecting the accuracy of the data collected. Additionally, the presence of pollutants and debris in water bodies can complicate survey efforts, necessitating the need for continuous adaptation and innovation in surveying techniques.In conclusion, the practice of subaqueous survey is a vital component of modern research and industry, providing insights into underwater environments that are critical for various applications. From uncovering historical artifacts to monitoring environmental health and facilitating construction projects, the significance of this practice is immense. As technology continues to evolve, it is likely that the effectiveness and scope of subaqueous survey will expand, further enhancing our understanding and management of the world's aquatic resources.

“水下调查”一词指的是在水下进行调查的过程，通常在河流、湖泊和海洋等水体中进行。这一实践对于多个领域至关重要，包括海洋考古、环境监测和水下建筑。水下调查的重要性不容小觑，因为它提供了关键信息，帮助决策者对水域环境做出明智的决策。水下调查的主要应用之一是海洋考古。考古学家常常寻求发现埋藏在水面下的文物和结构。通过使用先进技术，如声纳测绘和遥控潜水器（ROV），研究人员可以探索那些通常无法到达的水下遗址。这不仅有助于保护历史文物，还增强了我们对曾经在水体附近繁荣的古代文明的理解。此外，水下调查在环境监测中也发挥着至关重要的作用。随着人类活动对水生生态系统的影响日益加剧，评估这些环境的健康状况变得至关重要。在水下进行的调查可以帮助科学家收集有关水质、沉积物成分和水生生物存在的数据。这些信息对于制定保护战略和确保海洋资源的可持续性至关重要。除了考古和环境研究，水下调查在水下建筑领域也具有重要意义。工程师和建筑公司必须了解水下地形，以便在进行桥梁建设、管道安装或海上风电场等项目之前进行规划。准确的调查使他们能够识别潜在的危险，例如沉没的岩石或残骸，并相应地进行规划。这不仅提高了安全性，还降低了因施工过程中出现意外问题而产生的成本。技术进步大大提高了水下调查的效率和准确性。例如，多波束声纳系统的发展使得对海底的详细测绘成为可能，捕捉到高分辨率图像，揭示水下地形的复杂细节。此外，地理信息系统（GIS）的整合使研究人员能够更有效地分析调查数据，从而更好地为资源管理和保护工作提供信息。然而，尽管水下调查有诸多好处，但也面临挑战。一个主要问题是气候变化对水生环境的影响。海平面上升和水温升高可能会改变调查进行的条件，从而影响所收集数据的准确性。此外，水体中污染物和垃圾的存在可能会使调查工作变得复杂，迫切需要在调查技术上不断适应和创新。总之，水下调查的实践是现代研究和工业的重要组成部分，提供了对水下环境的深入见解，这对于多种应用至关重要。从发掘历史文物到监测环境健康，再到促进建筑项目，水下调查的意义巨大。随着技术的不断进步，水下调查的有效性和范围可能会进一步扩大，进一步增强我们对世界水域资源的理解和管理。