adjacent formation

简明释义

1. 围岩; 2. 相邻地层;

英英释义

例句

1.During the construction, the engineers discovered an adjacent formation that required additional safety measures.

在施工过程中，工程师发现了一个需要额外安全措施的相邻地层。

2.The geologist studied the rock layers in the adjacent formation to understand the area's geological history.

地质学家研究了相邻地层中的岩石层，以了解该地区的地质历史。

3.The adjacent formation contains minerals that are essential for the production of high-tech electronics.

该相邻地层含有高科技电子产品生产所需的矿物。

4.Archaeologists often compare artifacts from their site with those in the adjacent formation to draw conclusions about cultural connections.

考古学家经常将他们现场的文物与相邻地层中的文物进行比较，以得出关于文化联系的结论。

5.The fossils found in the adjacent formation provided valuable insights into prehistoric life.

在相邻地层中发现的化石为史前生命提供了宝贵的见解。

作文

In the study of geology, the term adjacent formation refers to rock layers or geological structures that are located next to each other. Understanding these formations is crucial for geologists as they provide insights into the history of the Earth, including its past environments, climatic conditions, and the processes that have shaped its surface over millions of years. The interaction between different adjacent formations can reveal significant information about the geological timeline and the evolution of various landscapes.For instance, when examining a mountain range, geologists often analyze the adjacent formations to determine how tectonic forces have influenced the region. Each layer may represent a different period in geological history, and studying their composition can help scientists understand how the area has transformed over time. By comparing the characteristics of adjacent formations, researchers can infer the types of sedimentary processes that were active during their formation, such as erosion, deposition, and volcanic activity.Moreover, the concept of adjacent formation is not limited to geology alone; it also finds applications in fields like urban planning and environmental science. In urban development, understanding the adjacent formations of the land can assist planners in making informed decisions about construction and infrastructure. For example, if a new building is to be erected near a river, knowledge of the adjacent formations will help assess the risk of flooding and soil stability.In environmental science, researchers study adjacent formations to understand ecosystems and biodiversity. Different geological formations can support various types of vegetation and wildlife. By examining the relationships between adjacent formations, scientists can identify areas of ecological significance and develop conservation strategies to protect them.Furthermore, the exploration of natural resources, such as oil and gas, heavily relies on the understanding of adjacent formations. Geologists use seismic surveys to map the subsurface and identify potential reservoirs. The presence of adjacent formations can indicate the likelihood of resource deposits, which is critical for energy companies seeking to maximize their extraction efforts.In conclusion, the term adjacent formation plays a vital role in various scientific disciplines. Whether in geology, urban planning, or environmental science, the study of adjacent formations provides valuable insights that contribute to our understanding of the Earth and its resources. As we continue to explore and study our planet, the importance of recognizing and analyzing adjacent formations will undoubtedly remain a key component in advancing our knowledge and ensuring sustainable development for future generations.

在地质学研究中，术语邻近地层指的是相互靠近的岩层或地质结构。理解这些地层对地质学家至关重要，因为它们提供了关于地球历史的见解，包括其过去的环境、气候条件以及数百万年来塑造其表面的过程。不同邻近地层之间的相互作用可以揭示关于地质时间线和各种景观演变的重要信息。例如，在研究一座山脉时，地质学家常常分析邻近地层以确定构造力如何影响该地区。每一层可能代表地质历史中的不同时期，研究它们的组成可以帮助科学家了解该地区如何随着时间的推移而转变。通过比较邻近地层的特征，研究人员可以推断出在其形成期间活跃的沉积过程类型，例如侵蚀、沉积和火山活动。此外，邻近地层的概念不仅限于地质学，它在城市规划和环境科学等领域也有应用。在城市发展中，了解土地的邻近地层可以帮助规划者做出有关建筑和基础设施的明智决策。例如，如果要在河流附近建造新建筑，了解邻近地层将有助于评估洪水风险和土壤稳定性。在环境科学中，研究人员研究邻近地层以了解生态系统和生物多样性。不同的地质地层可以支持各种植被和野生动物。通过检查邻近地层之间的关系，科学家可以识别出具有生态重要性的区域，并制定保护策略以保护它们。此外，自然资源的勘探，如石油和天然气，严重依赖对邻近地层的理解。地质学家使用地震勘测来绘制地下地图并识别潜在的储层。邻近地层的存在可以表明资源沉积的可能性，这对寻求最大化开采努力的能源公司至关重要。总之，术语邻近地层在各个科学学科中发挥着重要作用。无论是在地质学、城市规划还是环境科学中，研究邻近地层提供了有价值的见解，为我们理解地球及其资源做出了贡献。随着我们继续探索和研究我们的星球，认识和分析邻近地层的重要性无疑将继续成为推动我们知识进步和确保未来可持续发展的关键组成部分。