bathymetric profile

简明释义

等深剖面图;

英英释义

例句

1.Using sonar technology, we mapped the bathymetric profile 水深剖面 of the ocean floor.

利用声纳技术，我们绘制了海底的水深剖面 bathymetric profile。

2.By analyzing the bathymetric profile 水深剖面, scientists can predict how sediment will accumulate over time.

通过分析水深剖面 bathymetric profile，科学家可以预测沉积物将如何随时间累积。

3.The research team created a detailed bathymetric profile 水深剖面 of the lake to study its ecosystem.

研究小组制作了湖泊的详细水深剖面 bathymetric profile以研究其生态系统。

4.The bathymetric profile 水深剖面 helps in understanding the geological history of the region.

该水深剖面 bathymetric profile有助于理解该地区的地质历史。

5.The bathymetric profile 水深剖面 revealed unexpected underwater features that could affect navigation.

该水深剖面 bathymetric profile揭示了意想不到的水下特征，这可能会影响航行。

作文

Understanding the underwater landscape is crucial for various scientific and environmental studies. One significant aspect of this exploration is the creation of a bathymetric profile, which refers to a graphical representation of the underwater depth of ocean floors, lakes, and other bodies of water. This profile provides essential information about the topography beneath the water surface, allowing researchers, marine biologists, and geologists to analyze and interpret the physical characteristics of aquatic environments.The process of generating a bathymetric profile typically involves the use of sonar technology, which emits sound waves that bounce off the seafloor. By measuring the time it takes for the sound waves to return, scientists can calculate the depth of the water at various points. This data is then compiled to create a detailed map that highlights features such as underwater mountains, valleys, and plateaus. Such profiles are invaluable for understanding sediment distribution, habitat structures, and even the effects of climate change on marine ecosystems.In addition to scientific research, bathymetric profiles play a vital role in navigation and maritime activities. Accurate depth measurements help in ensuring safe passage for ships and submarines, preventing accidents caused by underwater obstacles. Furthermore, these profiles assist in the planning of underwater construction projects, such as pipelines and cables, by providing crucial information about the seabed conditions.Moreover, bathymetric profiles are essential for fisheries management. By identifying the locations of underwater structures, fish habitats, and breeding grounds, fishery managers can develop sustainable practices that protect marine life while allowing for responsible fishing. Understanding the relationship between the physical environment and marine species distribution is key to maintaining healthy ecosystems.The significance of bathymetric profiles extends beyond practical applications; they also contribute to our understanding of global geological processes. The study of underwater topography can reveal insights into tectonic activity, sedimentation patterns, and the history of Earth's climate. For instance, analyzing changes in bathymetric profiles over time can provide evidence of sea-level rise or shifts in ocean currents, which are critical factors in climate change studies.In conclusion, the concept of a bathymetric profile encapsulates a significant area of research that intersects various scientific disciplines. From enhancing navigation safety to aiding in environmental conservation, these profiles serve as essential tools for understanding and managing our aquatic environments. As technology advances, the precision and accessibility of bathymetric profiles will continue to improve, allowing for deeper insights into the mysteries of the underwater world. Ultimately, the ongoing study of these profiles not only enriches our knowledge of marine ecosystems but also fosters a greater appreciation for the intricate relationships that exist within our planet's waters.

理解水下景观对各种科学和环境研究至关重要。这个探索的一个重要方面是创建bathymetric profile，即水底深度的图形表示，包括海洋、湖泊和其他水体。这一轮廓提供了关于水面下地形的重要信息，使研究人员、海洋生物学家和地质学家能够分析和解释水域的物理特征。生成bathymetric profile的过程通常涉及使用声纳技术，该技术发出声波并反射到海底。通过测量声波返回所需的时间，科学家可以计算出各个点的水深。这些数据随后被汇编成详细地图，突出显示水下山脉、峡谷和平原等特征。这种轮廓对于了解沉积物分布、栖息地结构，甚至气候变化对海洋生态系统的影响至关重要。除了科学研究，bathymetric profiles在航行和海事活动中也发挥着重要作用。准确的深度测量有助于确保船只和潜艇的安全通行，防止因水下障碍物造成的事故。此外，这些轮廓还帮助规划水下建设项目，如管道和电缆，提供有关海底条件的重要信息。此外，bathymetric profiles对于渔业管理至关重要。通过识别水下结构、鱼类栖息地和繁殖场所，渔业管理者可以制定可持续的实践，以保护海洋生物，同时允许负责任的捕鱼。了解物理环境与海洋物种分布之间的关系是维持健康生态系统的关键。bathymetric profiles的重要性不仅限于实际应用；它们还为我们理解全球地质过程做出了贡献。对水下地形的研究可以揭示有关构造活动、沉积模式和地球气候历史的见解。例如，分析bathymetric profiles随时间变化可以提供海平面上升或洋流变化的证据，这些都是气候变化研究中的关键因素。总之，bathymetric profile的概念囊括了一个重要的研究领域，交叉了多个科学学科。从提高航行安全到帮助环境保护，这些轮廓作为理解和管理水域环境的重要工具。随着技术的进步，bathymetric profiles的精确度和可及性将不断提高，使我们能更深入地了解水下世界的奥秘。最终，对这些轮廓的持续研究不仅丰富了我们对海洋生态系统的知识，还促进了我们对地球水域内复杂关系的更大欣赏。