geotectonic

简明释义

英[ˌdʒiːəʊtekˈtɒnɪk]美[ˌdʒiotekˈtɑnɪk]

adj. 大地构造的；地壳构造的

英英释义

单词用法

同义词

反义词

例句

1.The quakes hitting China, Japan, and Russia Thursday were under different geotectonic circumstances, and so they had nothing to do with each other, a Guangdong seismological expert said Friday.

广东省一地震专家25日表示，24日中日俄三地接连发生的地震分属不同构造背景，不具关联性。

2.This deposit attracts attentions of many geologists and geochemists for its unique geological characters and geotectonic background.

其矿床地质特征和成矿地质环境十分独特，在国内外引起广泛注意。

3.The Lancangjiang metallogenic belt in western Yunnan is an important magmatic, metamorphic and tectonic mobile zone of Southwestern China, whose geotectonic location is very unique.

滇西澜沧江成矿带是我国西南一条重要的岩浆—变质—构造活动带，大地构造位置极为独特。

4.According to characteristics of, magnetic fied, the boundary of Junggar block was confined, and according to data of magnetic field, a new classification was done of the geotectonic divisions.

根据磁场特征圈出准噶尔地块边界。依据磁场资料重新划分了大地构造分区。

5.The coast line changes are various in the southern and northern coasts because of their geotectonic difference.

因区域构造差异，南北岸线变化表现，一，湾顶临洪口是过渡地段。

6.SW Margin of the Yangtze Block, belonged to South part of the South China Plate, spans two geotectonic units of Yangtze Landmass and South China active zone.

扬子地块西南缘，属华南板块南部，跨扬子陆块和南华活动带两个大地构造单元。

7.Based on the concept of continental roots plume tectonics, geotectonic units of China continent on a lithospheric scale since Cenozoic are discussed in this paper.

基于大陆根柱构造概念，讨论了新生代以来中国大陆岩石圈尺度的大地构造分区。

8.The geotectonic conditions of metallogenesis, geologic features of the deposit and ore-controlling factors have a unique style.

其成矿大地构造条件、矿床地质特征、控矿因素等独具一格。

9.The study of geotectonic 地球构造的 processes helps us understand the formation of mountains.

对地球构造的过程的研究帮助我们理解山脉的形成。

10.Recent geotectonic 地球构造的 shifts have caused several earthquakes in the region.

最近的地球构造的变化导致该地区发生了几次地震。

11.The geotectonic 地球构造的 model indicates a potential for future land subsidence.

该地球构造的模型表明未来可能发生土地沉降。

12.Understanding geotectonic 地球构造的 processes is crucial for building earthquake-resistant structures.

理解地球构造的过程对于建造抗震结构至关重要。

13.Geologists analyze geotectonic 地球构造的 features to predict volcanic activity.

地质学家分析地球构造的特征以预测火山活动。

作文

The study of the Earth's structure and the processes that shape it is a fundamental aspect of geology. One of the most significant concepts within this field is geotectonic, which refers to the large-scale movements and deformations of the Earth's crust. Understanding geotectonic processes is crucial for comprehending how continents drift, mountains form, and earthquakes occur. These processes are driven by the heat from the Earth's interior, which causes the tectonic plates that make up the Earth's surface to move and interact with one another.Tectonic plates are massive slabs of rock that float on the semi-fluid asthenosphere beneath them. The interactions between these plates can lead to various geological phenomena. For instance, when two plates collide, one may be forced beneath the other in a process known as subduction. This can create deep ocean trenches and volcanic arcs, demonstrating the dynamic nature of the Earth's surface. Similarly, when plates pull apart, new oceanic crust is formed, resulting in mid-ocean ridges. These examples illustrate the importance of geotectonic processes in shaping the planet's landscape.In addition to forming physical features, geotectonic activity is also responsible for some of the most significant natural disasters. Earthquakes, for instance, occur when stress builds up along fault lines due to the movement of tectonic plates. When this stress is released, it results in seismic waves that can cause widespread destruction. Understanding the geotectonic framework of an area can help scientists predict where earthquakes are likely to occur and how severe they might be.Moreover, geotectonic studies contribute to our understanding of resource distribution. The formation of mineral deposits, oil reserves, and even groundwater systems is often linked to the movements of tectonic plates. By studying these processes, geologists can identify areas rich in natural resources, which is vital for economic development.In recent years, the concept of geotectonic has expanded to include the study of human impacts on geological processes. Urbanization, mining, and other activities can alter the natural balance of tectonic forces. For example, the extraction of groundwater can lead to land subsidence, while large-scale construction projects may increase the risk of triggering earthquakes. This intersection of human activity and geotectonic processes highlights the need for sustainable practices in managing the Earth's resources.In conclusion, the study of geotectonic processes is essential for understanding the Earth's past, present, and future. It provides insights into the formation of our planet's landscapes, the occurrence of natural disasters, and the distribution of valuable resources. As we continue to explore the intricate relationship between tectonic movements and human activities, it becomes increasingly important to consider how we can live in harmony with the dynamic forces that shape our world. By fostering a deeper understanding of geotectonic processes, we can better prepare for the challenges posed by our ever-changing planet.

地球结构及其塑造过程的研究是地质学的基本方面之一。其中一个重要概念是构造地质，指的是地球岩壳的大规模运动和变形。理解构造地质过程对于理解大陆漂移、山脉形成和地震发生至关重要。这些过程是由地球内部的热量驱动的，使得构成地球表面的板块发生运动和相互作用。构造板块是漂浮在其下半流体软流圈上的巨大岩石板块。这些板块之间的相互作用可以导致各种地质现象。例如，当两块板块碰撞时，其中一块可能被迫在另一块下面，这一过程称为俯冲。这可以形成深海沟和火山弧，展示了地球表面的动态特性。类似地，当板块分开时，新的海洋地壳会形成，从而导致中洋脊的出现。这些例子说明了构造地质过程在塑造地球景观中的重要性。除了形成物理特征外，构造地质活动也负责一些最严重的自然灾害。例如，地震的发生是由于构造板块运动导致的应力在断层线附近积累。当这种应力释放时，会产生能导致广泛破坏的地震波。理解某个地区的构造地质框架可以帮助科学家预测地震可能发生的地点以及其严重程度。此外，构造地质研究有助于我们理解资源分布。矿产沉积、石油储备甚至地下水系统的形成通常与构造板块的运动有关。通过研究这些过程，地质学家可以识别出富含自然资源的区域，这对经济发展至关重要。近年来，构造地质的概念扩展到包括人类对地质过程影响的研究。城市化、采矿和其他活动可能会改变构造力量的自然平衡。例如，地下水的提取可能导致土地沉降，而大规模建设项目可能增加触发地震的风险。这种人类活动与构造地质过程的交叉强调了在管理地球资源时需要采用可持续的做法。总之，研究构造地质过程对于理解地球的过去、现在和未来至关重要。它提供了对我们星球景观形成、自然灾害发生和宝贵资源分布的洞察。随着我们继续探索构造运动与人类活动之间复杂的关系，考虑如何与塑造我们世界的动态力量和谐共处变得越来越重要。通过加深对构造地质过程的理解，我们可以更好地为应对我们不断变化的星球所带来的挑战做好准备。