bathymetric

简明释义

英[ˌbæθɪˈmetrɪk]美[ˈbæθimetrɪk]

adj. 深测术的；测海学的

英英释义

单词用法

同义词

反义词

例句

1.The record seabed image distorted due to the angular beam-width of echo-sounder in bathymetric, especially for gibbous terrain.

在海洋测深中，由于回声测深仪波束角效应的影响，对凸形海底的测量会带来较大的失真。

2.In bathymetric survey, the record seabed image is distorted due to the angular beam width of an echo sounder.

在海洋测深过程中，回声测深仪波束角效应使记录的测深图像失真。

3.Laser sounder bathymetric system is of great importance to be capable of charting coastal bathymetry rapidly and cheaply.

激光海洋测深仪是一种快速便宜的海深勘测系统，对绘制沿海区域海图有重大意义。

4.Bathymetric (or sea floor terrain) data is often collected from boats using sonar to take measurements of the sea floor. The lines reflect the path of the boat as it gathers the data.

水深(或海底地形)的数据往往是在船只上使用声纳测量海底采集的。

5.GPS-RTK bathymetric survey technique without tidal observation was successfully applied in Yangtze Estuary Channel Regulation Project for monitoring of river regime near leading jetty.

在长江口航道治理工程中，利用GPS - RTK测量技术实现无验潮水深测量，成功实现了对导堤附近河势的监。

6.The proposed method organized bathymetric data utilizing grid block structure, interpolated depth at grid node adopting three mathematical models and thinned data with multi-scale grid.

利用格网分块结构高效组织海量多波束水深数据，分别采用三种数学模型内插网格节点水深值，实现了不同网格尺度下的数据抽稀。

7.Hydrographic and bathymetric data have been applied to review the dynamic regime and morphological evolution in recent years in the sandbar area of the Modaomen estuary.

应用近几年的水文和地形实测资料，研究了磨刀门拦门沙区域近期的动力和地貌演变特点。

8.An airborne laser sounder bathymetric system is of great importance to chart coastal bathymetry rapidly and cheaply and to detect submarines.

机载激光海洋测深系统对快速而便宜地绘制沿海海图和探测潜艇有重要意义。

9.Automatic interpolation of charted depth annotated point, automatic selection of Marine topography feature point and automatic build of bathymetric contour come true by using history data.

利用历史资料实现了海域水深注记点的自动内插、海底地形特征点的自动选取和等深线的自动生成。

10.Accurate bathymetric data is essential for safe navigation in coastal areas.

准确的水深测量数据对于沿海地区的安全导航至关重要。

11.The bathymetric mapping project aims to create a detailed map of the Great Lakes.

这项水深测量制图项目旨在创建五大湖的详细地图。

12.The researchers used bathymetric maps to study the underwater topography of the ocean floor.

研究人员使用水深测量地图来研究海底的水下地形。

13.Scientists rely on bathymetric data to model ocean currents and their impact on climate.

科学家依赖水深测量数据来模拟海洋洋流及其对气候的影响。

14.The bathymetric survey revealed several underwater canyons that were previously unknown.

这项水深测量调查揭示了几个之前未知的水下峡谷。

作文

The study of the ocean floor is a fascinating field that combines various scientific disciplines, including geology, oceanography, and environmental science. One of the key terms in this area of research is bathymetric, which refers to the measurement of the depth of water bodies, particularly oceans and seas. Understanding the bathymetric features of the ocean is crucial for several reasons, including navigation, marine biology, and environmental conservation.Firstly, bathymetric data is essential for safe navigation. Ships and submarines rely on accurate depth measurements to avoid underwater hazards such as reefs, shipwrecks, and submerged rocks. By using bathymetric maps, navigators can plot safe courses through treacherous waters, ensuring the safety of both vessels and their crews. The importance of this cannot be overstated, as maritime accidents can lead to loss of life and significant environmental damage.Secondly, the study of bathymetric features helps scientists understand marine ecosystems. Different depths in the ocean host various types of marine life, each adapted to specific conditions. For example, coral reefs are typically found in shallow waters, while deep-sea creatures thrive in the abyssal zones. By mapping the bathymetric contours of the ocean floor, researchers can identify habitats and study the biodiversity present in different regions. This knowledge is vital for conservation efforts, as it allows scientists to pinpoint areas that may require protection from human activities such as fishing and oil drilling.Moreover, bathymetric surveys play a crucial role in understanding geological processes. The ocean floor is constantly changing due to tectonic activity, erosion, and sedimentation. By analyzing bathymetric data, geologists can gain insights into the formation of underwater features such as mountains, valleys, and trenches. This information is not only important for academic research but also has practical applications in predicting natural disasters like tsunamis and earthquakes.In recent years, advancements in technology have significantly improved our ability to collect bathymetric data. Traditional methods, such as lead lines and echo sounders, have been supplemented with modern techniques like multibeam sonar and satellite altimetry. These technologies allow for more detailed and accurate mapping of the ocean floor, revealing features that were previously unknown. As we continue to explore the depths of our oceans, the importance of bathymetric studies will only grow.In conclusion, the term bathymetric encompasses a vital area of study that impacts navigation, marine biology, and geology. By understanding the depth and contours of our oceans, we can enhance safety at sea, protect marine ecosystems, and gain insights into the Earth's geological history. As we face ongoing challenges such as climate change and habitat destruction, the role of bathymetric research will be increasingly important in informing our decisions and actions. Therefore, investing in bathymetric studies and technologies is essential for the sustainable management of our oceans and the preservation of their invaluable resources.

对海洋底部的研究是一个迷人的领域，结合了地质学、海洋学和环境科学等多个科学学科。在这一研究领域的一个关键术语是bathymetric，指的是水体深度的测量，特别是海洋和海洋。了解海洋的bathymetric特征对于多个原因至关重要，包括航行、海洋生物学和环境保护。首先，bathymetric数据对安全导航至关重要。船只和潜艇依赖准确的深度测量来避免水下危险，如礁石、沉船和淹没的岩石。通过使用bathymetric地图，导航员可以绘制安全的航线，确保船只及其船员的安全。这一点的重要性不言而喻，因为海事事故可能导致生命损失和重大的环境破坏。其次，研究bathymetric特征帮助科学家理解海洋生态系统。海洋中的不同深度栖息着各种类型的海洋生物，每种生物都适应特定的条件。例如，珊瑚礁通常位于浅水区，而深海生物则在深渊区繁衍生息。通过绘制海洋底部的bathymetric轮廓，研究人员可以识别栖息地并研究不同区域的生物多样性。这些知识对保护工作至关重要，因为它使科学家能够确定可能需要保护的人类活动区域，如捕鱼和石油钻探。此外，bathymetric调查在理解地质过程方面也发挥着关键作用。由于构造活动、侵蚀和沉积，海洋底部不断变化。通过分析bathymetric数据，地质学家可以深入了解海底特征的形成，如山脉、山谷和沟壑。这些信息不仅对学术研究重要，而且在预测自然灾害如海啸和地震方面具有实际应用。近年来，技术的进步显著提高了我们收集bathymetric数据的能力。传统方法，如铅线和回声测深仪，已被现代技术如多波束声纳和卫星高度计所补充。这些技术允许更详细和准确地绘制海洋底部的地图，揭示以前未知的特征。随着我们继续探索海洋的深处，bathymetric研究的重要性只会增加。总之，术语bathymetric涵盖了一个重要的研究领域，影响航行、海洋生物学和地质学。通过理解我们海洋的深度和轮廓，我们可以提高海上安全、保护海洋生态系统，并深入了解地球的地质历史。随着我们面临气候变化和栖息地破坏等持续挑战，bathymetric研究的角色在为我们的决策和行动提供信息方面将变得越来越重要。因此，投资于bathymetric研究和技术对于可持续管理我们的海洋和保护其宝贵资源至关重要。