adjacent strata

简明释义

1. 围岩; 2. 相邻岩层;

英英释义

例句

1.The geological survey revealed that the oil reserves are located in the adjacent strata 相邻地层 of the sedimentary basin.

地质调查显示，石油储备位于沉积盆地的相邻地层。

2.The fossils discovered in the adjacent strata 相邻地层 provided crucial insights into the region's prehistoric life.

在相邻地层中发现的化石为该地区的史前生物提供了重要见解。

3.In the construction project, engineers had to consider the stability of the adjacent strata 相邻地层 before laying the foundation.

在建设项目中，工程师必须考虑在打基础之前相邻地层的稳定性。

4.The study focused on the mineral composition of the adjacent strata 相邻地层 to understand the formation processes.

该研究集中于相邻地层的矿物成分，以理解形成过程。

5.Archaeologists found pottery fragments in the adjacent strata 相邻地层 that date back to the early Bronze Age.

考古学家在相邻地层中发现了可以追溯到早期青铜时代的陶器碎片。

作文

In the study of geology, the concept of adjacent strata plays a crucial role in understanding the Earth's history and the processes that shape our planet. Strata, or layers of sedimentary rock, are formed over millions of years through various geological processes. When we refer to adjacent strata, we are talking about layers that are next to each other, typically representing different periods of deposition. This relationship between layers can provide valuable insights into the environmental conditions that existed at the time of their formation.For instance, when geologists examine adjacent strata, they can identify changes in sediment composition, fossil content, and even color variations. These differences can indicate shifts in climate, sea levels, or biological activity. By analyzing these layers, scientists can reconstruct past environments and understand how they have evolved over time.Moreover, the study of adjacent strata is not only important for academic research but also has practical applications. In the field of natural resource exploration, understanding the characteristics of these layers can help geologists locate oil, natural gas, and minerals. The properties of adjacent strata can influence the migration pathways of hydrocarbons, making it essential for energy companies to study these formations carefully.In addition to resources, adjacent strata can also give us clues about geological hazards. For example, examining the layering of rocks can reveal information about fault lines and seismic activity. By understanding the relationship between adjacent strata and tectonic movements, scientists can better predict earthquakes and landslides, ultimately helping to save lives and protect property.Furthermore, the concept of adjacent strata extends beyond geology into other fields such as archaeology and paleontology. Archaeologists often find artifacts buried within specific layers of soil, which can be correlated with adjacent strata to date the findings accurately. Similarly, paleontologists rely on the study of adjacent strata to determine the age of fossils and understand the evolution of life on Earth.In conclusion, the term adjacent strata refers to the layers of sedimentary rock that are next to one another, providing essential information about the Earth's past. By studying these layers, scientists can gain insights into historical climates, locate natural resources, assess geological hazards, and explore archaeological sites. The interconnectedness of adjacent strata highlights the importance of interdisciplinary approaches in understanding our planet's complex history and the processes that continue to shape it today.

在地质学研究中，相邻地层的概念在理解地球历史及塑造我们星球的过程方面起着至关重要的作用。地层或沉积岩层是通过各种地质过程在数百万年间形成的。当我们提到相邻地层时，我们指的是彼此相邻的层，通常代表不同的沉积时期。这些层之间的关系可以提供关于它们形成时存在的环境条件的宝贵见解。例如，当地质学家检查相邻地层时，他们可以识别沉积物成分、化石内容甚至颜色变化的变化。这些差异可以表明气候、海平面或生物活动的变化。通过分析这些层，科学家可以重建过去的环境并理解它们是如何随时间演变的。此外，研究相邻地层不仅对学术研究重要，还具有实际应用。在自然资源勘探领域，理解这些层的特征可以帮助地质学家定位石油、天然气和矿物。相邻地层的性质可以影响碳氢化合物的迁移路径，这使得能源公司必须仔细研究这些构造。除了资源，相邻地层还可以为我们提供有关地质灾害的线索。例如，检查岩石的层理可以揭示有关断层线和地震活动的信息。通过理解相邻地层与构造运动之间的关系，科学家可以更好地预测地震和滑坡，从而最终帮助拯救生命和保护财产。此外，相邻地层的概念不仅限于地质学，还扩展到考古学和古生物学等其他领域。考古学家经常发现埋藏在特定土壤层中的文物，这些文物可以与相邻地层相关联，以准确确定发现的年代。同样，古生物学家依赖对相邻地层的研究来确定化石的年龄并了解地球上生命的演化。总之，术语相邻地层指的是彼此相邻的沉积岩层，提供了关于地球过去的重要信息。通过研究这些层，科学家可以获得关于历史气候的见解，定位自然资源，评估地质危险，并探索考古遗址。相邻地层的相互关联性突显了跨学科方法在理解我们星球复杂历史及其持续塑造过程中的重要性。