geological section

简明释义

地质剖面

英英释义

例句

1.The geologist presented a detailed geological section to illustrate the rock layers in the area.

地质学家展示了一幅详细的地质剖面，以说明该地区的岩层。

2.In our field trip, we collected samples from various points along the geological section.

在我们的实地考察中，我们从地质剖面的不同点收集了样本。

3.The geological section revealed evidence of ancient volcanic activity.

该地质剖面揭示了古代火山活动的证据。

4.Understanding the geological section is crucial for identifying potential mineral deposits.

理解地质剖面对于识别潜在的矿产资源至关重要。

5.We used the geological section to determine the age of the rock formations.

我们使用地质剖面来确定岩层的年龄。

作文

Understanding the Earth's structure is essential for various scientific fields, including geology, environmental science, and engineering. One of the key tools used by geologists to visualize and interpret the layers of the Earth is the geological section. A geological section (地质剖面) is a representation of the vertical profile of the Earth's crust, showing the different rock layers and their relationships. This tool helps scientists to analyze the composition, age, and distribution of geological materials. The creation of a geological section involves extensive fieldwork and data collection. Geologists often conduct surveys in specific locations, taking samples of rocks, soil, and other materials. These samples are then analyzed in laboratories to determine their physical and chemical properties. Once enough data is collected, geologists can construct a geological section, which typically includes annotations about the types of rocks, fossils, and any significant geological events that may have occurred in the area.A well-constructed geological section provides valuable insights into the geological history of a region. For instance, it can reveal information about past volcanic activity, sediment deposition, and tectonic movements. By studying these sections, geologists can make inferences about the conditions that existed when the rocks were formed. This understanding is crucial for predicting natural disasters, such as earthquakes and landslides, as well as for resource exploration, including oil, gas, and minerals.Moreover, geological sections play a vital role in education and research. They serve as visual aids for students learning about geology, helping them to grasp complex concepts related to the Earth's structure. In academic research, geological sections are often published in scientific papers, contributing to the broader knowledge of geological processes and formations.In addition to their scientific importance, geological sections also have practical applications in engineering and construction. Before building infrastructure such as roads, bridges, or dams, engineers often refer to geological sections to assess the stability of the ground. Understanding the layering of rocks and soil can help in designing foundations that will withstand natural forces. Overall, the geological section (地质剖面) is an indispensable tool in the field of geology and beyond. Its ability to depict the Earth's layers and their interactions allows for a deeper understanding of our planet's history and its ongoing processes. As technology advances, the methods used to create geological sections are becoming more sophisticated, incorporating techniques such as remote sensing and computer modeling. This evolution promises to enhance our comprehension of geological phenomena and improve our ability to manage Earth's resources responsibly. In conclusion, the significance of the geological section cannot be overstated. It is a fundamental aspect of geological study, providing insights that are crucial for both scientific inquiry and practical applications. Whether used in research, education, or engineering, the geological section remains a key element in our quest to understand the Earth and its processes.

理解地球的结构对地质学、环境科学和工程等多个科学领域至关重要。地质学家用来可视化和解释地球层次结构的关键工具之一是地质剖面。地质剖面（geological section）是地壳垂直剖面的表现，展示了不同岩层及其关系。这个工具帮助科学家分析地质材料的成分、年龄和分布。创建地质剖面需要广泛的实地工作和数据收集。地质学家通常在特定地点进行调查，采集岩石、土壤和其他材料的样本。这些样本随后在实验室中进行分析，以确定它们的物理和化学性质。一旦收集到足够的数据，地质学家就可以构建地质剖面，通常包括关于岩石类型、化石和该地区可能发生的任何重大地质事件的注释。一个构建良好的地质剖面提供了关于一个区域地质历史的宝贵见解。例如，它可以揭示有关过去火山活动、沉积物沉积和构造运动的信息。通过研究这些剖面，地质学家可以推断出岩石形成时存在的条件。这种理解对于预测自然灾害，如地震和滑坡，以及资源勘探，包括石油、天然气和矿产至关重要。此外，地质剖面在教育和研究中也发挥着重要作用。它们作为学生学习地质学的视觉辅助工具，帮助他们掌握与地球结构相关的复杂概念。在学术研究中，地质剖面通常发表在科学论文中，为地质过程和地质形成的更广泛知识做出贡献。除了科学重要性外，地质剖面在工程和建筑中的实际应用也很重要。在建设道路、桥梁或大坝等基础设施之前，工程师通常会参考地质剖面以评估地面的稳定性。了解岩石和土壤的层次结构可以帮助设计能够抵御自然力量的基础。总的来说，地质剖面（geological section）是地质学及其他领域不可或缺的工具。它描绘地球的层次及其相互作用，使我们对地球历史及其持续过程有更深刻的理解。随着技术的发展，用于创建地质剖面的方法变得更加复杂，结合了遥感和计算机建模等技术。这一演变有望增强我们对地质现象的理解，并改善我们负责任地管理地球资源的能力。总之，地质剖面的重要性不容小觑。它是地质研究的基本方面，提供了对科学探究和实际应用至关重要的见解。无论是在研究、教育还是工程中，地质剖面始终是我们理解地球及其过程的关键元素。