adjoining rock

简明释义

1. 围岩; 2. 顶底板;

英英释义

例句

1.The geologist examined the layers of the cliff, noting the characteristics of the adjoining rock 相邻岩石 that could influence the stability of the area.

地质学家检查了悬崖的层次，注意到可能影响该地区稳定性的相邻岩石的特征。

2.In the mining operation, the team had to carefully assess the strength of the adjoining rock 相邻岩石 to prevent collapses.

在采矿作业中，团队必须仔细评估相邻岩石的强度，以防止坍塌。

3.The architect decided to use materials similar to the adjoining rock 相邻岩石 for the new building to ensure aesthetic harmony.

建筑师决定使用与新建筑的相邻岩石相似的材料，以确保美学和谐。

4.The riverbank was eroding due to water flow, exposing the adjoining rock 相邻岩石 that had been hidden for centuries.

由于水流的侵蚀，河岸暴露出隐藏了数百年的相邻岩石。

5.During the excavation, workers discovered fossils in the adjoining rock 相邻岩石, providing insight into the region's prehistoric environment.

在挖掘过程中，工人们在相邻岩石中发现了化石，为该地区的史前环境提供了见解。

作文

In the study of geology, the term adjoining rock refers to the rock formations that are in close proximity to one another, often sharing similar geological characteristics or being part of the same geological structure. Understanding these relationships is crucial for geologists as it helps them decipher the history of the Earth’s crust and the processes that have shaped it over millions of years. The significance of adjoining rock can be observed in various geological contexts, including sedimentary basins, mountain ranges, and volcanic regions.For instance, when examining a mountain range, geologists often analyze the adjoining rock layers to understand the tectonic forces that have contributed to the uplift of the mountains. These rocks may have been formed from different geological periods, but their proximity can indicate a shared history of deformation and metamorphism. By studying the composition and structure of the adjoining rock, scientists can make inferences about the environmental conditions that existed at the time of their formation.Moreover, adjoining rock plays a vital role in resource exploration. Many natural resources, such as minerals and fossil fuels, are found in specific rock formations. Geologists often look for adjoining rock that indicates the presence of these resources. For example, if a layer of coal is found adjacent to sedimentary rocks rich in organic material, it may suggest that the area has the potential for significant fossil fuel deposits. This relationship between adjoining rock and resource distribution is essential for effective mining and extraction strategies.In addition to economic benefits, understanding adjoining rock can also have implications for environmental science. For instance, when assessing the stability of a region prone to landslides or earthquakes, geologists must consider the adjoining rock structures. The interaction between different rock types can influence the strength and integrity of slopes, making it critical to evaluate how these rocks relate to one another. This knowledge can help in predicting geological hazards and implementing safety measures in vulnerable areas.Furthermore, the study of adjoining rock extends beyond Earth; it can also apply to other celestial bodies. For example, when analyzing the surface of Mars, scientists look for adjoining rock formations to understand the planet's geological history and the possibility of past life. By comparing these formations to those on Earth, researchers can gain insights into the processes that shaped both planets.In conclusion, the concept of adjoining rock is fundamental in the field of geology. It provides valuable information about the Earth's history, resource distribution, and environmental stability. As we continue to explore our planet and beyond, the relationships between different rock formations will remain a key area of study, helping us to unlock the mysteries of our geological past and inform our future decisions regarding resource management and environmental protection.

在地质学研究中，术语相邻岩石指的是彼此紧密相邻的岩石构造，这些岩石往往具有相似的地质特征或属于同一地质结构。理解这些关系对地质学家来说至关重要，因为它帮助他们解读地球地壳的历史以及数百万年来塑造它的过程。相邻岩石的重要性可以在各种地质背景中观察到，包括沉积盆地、山脉和火山区域。例如，当研究一个山脉时，地质学家常常分析相邻岩石层，以了解促成山脉隆起的构造力。这些岩石可能来自不同的地质时期，但它们的接近性可以表明变形和变质的共同历史。通过研究相邻岩石的组成和结构，科学家可以推断出形成时存在的环境条件。此外，相邻岩石在资源勘探中发挥着重要作用。许多自然资源，如矿物和化石燃料，存在于特定的岩石构造中。地质学家通常寻找相邻岩石，以指示这些资源的存在。例如，如果发现煤层与富含有机材料的沉积岩相邻，这可能表明该地区具有显著的化石燃料储量的潜力。相邻岩石与资源分布之间的这种关系对于有效的采矿和提取策略至关重要。除了经济利益外，理解相邻岩石对环境科学也有影响。例如，在评估易发生滑坡或地震的地区的稳定性时，地质学家必须考虑相邻岩石结构。不同岩石类型之间的相互作用会影响斜坡的强度和完整性，因此评估这些岩石之间的关系至关重要。这些知识可以帮助预测地质灾害并在易受影响地区实施安全措施。此外，相邻岩石的研究不仅限于地球；它也可以应用于其他天体。例如，在分析火星表面时，科学家寻找相邻岩石构造，以了解该行星的地质历史和过去生命的可能性。通过将这些构造与地球上的岩石进行比较，研究人员可以获得塑造这两个行星的过程的见解。总之，相邻岩石的概念在地质学领域是基础性的。它提供了有关地球历史、资源分布和环境稳定性的重要信息。随着我们继续探索我们的星球和更远的地方，不同岩石构造之间的关系将始终是研究的关键领域，帮助我们揭开地质过去的奥秘，并为我们关于资源管理和环境保护的未来决策提供信息。