buried terrain

简明释义

掩蔽地形;

英英释义

例句

1.The military conducted exercises in areas with challenging buried terrain 埋藏地形 to prepare for real-world scenarios.

军方在具有挑战性的埋藏地形 埋藏地形区域进行演习，以准备应对现实世界的情境。

2.During the construction, workers encountered unexpected buried terrain 埋藏地形, which delayed the project significantly.

在施工过程中，工人们遇到了意想不到的埋藏地形 埋藏地形，这大大延误了项目进度。

3.The archaeologists used ground-penetrating radar to explore the buried terrain 埋藏地形 for ancient artifacts.

考古学家使用地面穿透雷达探索埋藏地形 埋藏地形以寻找古代文物。

4.Mapping the buried terrain 埋藏地形 is crucial for understanding the geological history of the area.

绘制埋藏地形 埋藏地形对于理解该地区的地质历史至关重要。

5.The geologists discovered a new layer of rock beneath the surface, indicating a complex buried terrain 埋藏地形 that had not been mapped before.

地质学家发现了表面下的新岩层，表明有一个复杂的埋藏地形 埋藏地形，之前并未被绘制。

作文

The concept of buried terrain refers to landforms or geological features that are hidden beneath the surface of the earth. This can include a variety of elements such as underground rivers, ancient cities, or even layers of soil and rock that have been covered over time. Understanding buried terrain is crucial for several reasons, particularly in fields like archaeology, geology, and environmental science. In archaeology, for instance, the discovery of buried terrain can lead to significant findings about past civilizations. Many ancient cities were built on top of one another, resulting in layers of history that can be studied through excavation. When archaeologists dig into the ground, they often uncover structures, artifacts, and other remnants of previous societies that provide insight into their way of life. The study of buried terrain thus helps to reconstruct historical narratives and understand cultural evolution over time.Moreover, in geology, the examination of buried terrain can reveal important information about the Earth's history and its processes. For example, sediment layers can indicate past climate conditions, while fossils found within these layers can showcase the evolution of species. Geologists often utilize various methods, such as seismic surveys or ground-penetrating radar, to analyze buried terrain without disturbing it, allowing for a non-invasive approach to understanding the planet's past.Environmental scientists also pay close attention to buried terrain when assessing ecosystems and natural resources. The topography beneath the surface can influence water drainage, soil composition, and even the distribution of flora and fauna in an area. By studying buried terrain, scientists can better predict how changes in land use or climate may impact the environment. For instance, understanding the buried terrain in a region can help in planning sustainable development projects that minimize ecological disruption.In addition to its scientific significance, buried terrain can also pose challenges. For example, construction projects must consider what lies beneath the surface to avoid damaging archaeological sites or encountering hazardous materials. Urban planners and engineers often conduct thorough assessments of buried terrain before beginning any major developments to ensure safety and compliance with regulations.In conclusion, the study of buried terrain encompasses a wide range of disciplines and applications. From uncovering the secrets of ancient civilizations to understanding geological processes and managing environmental resources, buried terrain plays a vital role in our comprehension of the world around us. As technology advances, the methods used to explore and analyze buried terrain will continue to evolve, providing further insights into our planet's past and guiding our future decisions regarding land use and conservation. Therefore, recognizing the importance of buried terrain is essential for anyone interested in the interconnectedness of history, science, and the environment.

“埋藏地形”的概念指的是隐藏在地球表面之下的地貌或地质特征。这可以包括多种元素，例如地下河流、古代城市，甚至是随着时间推移而被覆盖的土壤和岩石层。理解埋藏地形对于多个领域至关重要，特别是在考古学、地质学和环境科学等领域。例如，在考古学中，埋藏地形的发现可能会导致对过去文明的重要发现。许多古代城市是建立在彼此之上的，形成了可以通过挖掘研究的历史层次。当考古学家挖掘地下时，他们通常会发现结构、文物和其他前社会的遗迹，这些都为了解他们的生活方式提供了见解。因此，埋藏地形的研究有助于重建历史叙事，并理解文化随时间演变的过程。此外，在地质学中，埋藏地形的检查可以揭示关于地球历史及其过程的重要信息。例如，沉积层可以指示过去的气候条件，而这些层中的化石可以展示物种的演化。地质学家常常利用各种方法，如地震勘探或地面穿透雷达，分析埋藏地形而不打扰它，从而允许以非侵入性的方法理解地球的过去。环境科学家在评估生态系统和自然资源时也非常关注埋藏地形。地下的地形对水流、土壤成分，甚至一个地区植物和动物的分布都有影响。通过研究埋藏地形，科学家可以更好地预测土地使用或气候变化如何影响环境。例如，理解某一地区的埋藏地形可以帮助规划可持续发展项目，以最小化生态干扰。除了科学意义外，埋藏地形也可能带来挑战。例如，建筑项目必须考虑地下的情况，以避免损坏考古遗址或遇到危险材料。城市规划者和工程师通常在开始任何重大开发之前，进行彻底的埋藏地形评估，以确保安全并遵守法规。总之，埋藏地形的研究涵盖了广泛的学科和应用。从揭示古代文明的秘密到理解地质过程以及管理环境资源，埋藏地形在我们理解周围世界的过程中扮演着至关重要的角色。随着技术的进步，用于探索和分析埋藏地形的方法将继续演变，为我们提供进一步的洞察力，以指导我们关于土地使用和保护的未来决策。因此，认识到埋藏地形的重要性对于任何对历史、科学和环境相互联系感兴趣的人来说都是必不可少的。