subcrustal
简明释义
英[ˌsʌbˈkrʌstəl]美[ˌsʌbˈkrʌstəl]
地壳下的
英英释义
与地壳下方相关或位于地壳下方的。 |
单词用法
同义词
| 地下层 | 该地区的地下地质矿藏丰富。 | ||
| 地下的 | Subterranean ecosystems are often less studied than surface ones. | 地下生态系统往往比地表生态系统研究得少。 | |
| 底层的 | 对这一现象的底层原因进行了调查。 |
反义词
| 表面的 | The superficial layer of the Earth is composed mainly of soil and rocks. | 地球的表层主要由土壤和岩石组成。 | |
| 表面 | Surface processes play a crucial role in shaping the landscape. | 表面过程在塑造地形方面起着至关重要的作用。 |
例句
1.Objective To investigate the effect of subcrustal tissue fluid (STF) on the endothelial cell (EC).
目的了解痂下水肿液(STF)对内皮细胞通透性的影响。
2.Objective To investigate the effect of subcrustal tissue fluid (STF) on the endothelial cell (EC).
目的了解痂下水肿液(STF)对内皮细胞通透性的影响。
3.The subcrustal 地壳下的 layer is believed to contain significant mineral deposits.
人们认为地壳下的subcrustal层含有重要的矿物储藏。
4.Studies of subcrustal 地壳下的 dynamics are crucial for predicting earthquakes.
对地壳下的subcrustal动态的研究对于预测地震至关重要。
5.The researchers discovered a new type of rock in the subcrustal 地壳下的 layer that could provide insights into Earth's formation.
研究人员在地壳下的subcrustal层发现了一种新型岩石,这可能为地球的形成提供新的见解。
6.Geologists are studying subcrustal 地壳下的 processes to better understand volcanic activity.
地质学家正在研究地壳下的subcrustal过程,以更好地理解火山活动。
7.Seismic waves can reveal information about the subcrustal 地壳下的 structure of the Earth.
地震波可以揭示地球地壳下的subcrustal结构信息。
作文
The Earth is a complex structure composed of various layers, each with its own unique characteristics and functions. Among these layers, the term subcrustal (指地壳下的) refers to the region located beneath the Earth's crust, which plays a crucial role in geological processes. Understanding the subcrustal layer is essential for comprehending how tectonic activities, volcanic eruptions, and seismic events occur. The subcrustal layer is primarily made up of rocks that are denser than those found in the crust above. These rocks often consist of materials such as basalt and other metamorphic rocks that have undergone significant pressure and temperature changes over millions of years. As scientists study this layer, they gain insights into the composition and behavior of the Earth's interior, which helps in predicting natural disasters and understanding the formation of various geological features.One of the most fascinating aspects of the subcrustal layer is its relationship with plate tectonics. The movement of tectonic plates is driven by convection currents in the mantle, which lies beneath the subcrustal layer. This interaction can lead to the formation of mountains, earthquakes, and even oceanic trenches. By examining the subcrustal region, geologists can better understand how these processes unfold and how they impact the Earth's surface.In addition to tectonic activity, the subcrustal layer is also involved in the generation of magma. When the temperature and pressure conditions are just right, the rocks in this layer can melt and form magma, which may rise through the crust to create volcanoes. Studying the subcrustal region allows researchers to identify potential volcanic hotspots and assess the risks associated with them.Furthermore, the subcrustal layer can influence the distribution of natural resources. For instance, many mineral deposits, including precious metals and fossil fuels, are formed through geological processes that occur in this layer. By exploring the subcrustal region, geologists can locate new resources that are vital for economic development and sustainability.In conclusion, the subcrustal layer of the Earth is a critical component of our planet's geology. Its study not only enhances our understanding of tectonic movements and volcanic activity but also aids in resource exploration and disaster preparedness. As technology advances, researchers continue to delve deeper into the mysteries of the subcrustal region, unveiling the secrets it holds and illuminating the dynamic processes that shape our world. The importance of this layer cannot be overstated, as it is fundamental to both the Earth's structure and the life that exists on its surface.
地球是一个由各种层次组成的复杂结构,每个层次都有其独特的特征和功能。在这些层次中,术语subcrustal(指地壳下的)指的是位于地壳下方的区域,这在地质过程中起着至关重要的作用。理解subcrustal层对于理解构造活动、火山喷发和地震事件的发生至关重要。subcrustal层主要由比上方地壳中的岩石更密集的岩石组成。这些岩石通常由玄武岩和其他经历了数百万年重大压力和温度变化的变质岩组成。当科学家研究这一层时,他们可以深入了解地球内部的成分和行为,这有助于预测自然灾害并理解各种地质特征的形成。subcrustal层最迷人的方面之一是它与板块构造的关系。构造板块的运动是由位于subcrustal层下方的地幔中的对流电流驱动的。这种相互作用可能导致山脉、地震甚至海洋沟的形成。通过检查subcrustal区域,地质学家可以更好地理解这些过程是如何展开的,以及它们如何影响地球表面。除了构造活动外,subcrustal层还参与了岩浆的生成。当温度和压力条件恰到好处时,这一层的岩石可能会熔化并形成岩浆,这些岩浆可能会通过地壳上升形成火山。研究subcrustal区域使研究人员能够识别潜在的火山热点,并评估与之相关的风险。此外,subcrustal层还可以影响自然资源的分布。例如,许多矿产沉积,包括贵金属和化石燃料,都是通过在这一层中发生的地质过程形成的。通过探索subcrustal区域,地质学家可以找到对经济发展和可持续性至关重要的新资源。总之,地球的subcrustal层是我们星球地质的重要组成部分。它的研究不仅增强了我们对构造运动和火山活动的理解,还有助于资源勘探和灾害准备。随着技术的进步,研究人员继续深入探讨subcrustal区域的奥秘,揭示其所蕴藏的秘密,阐明塑造我们世界的动态过程。这一层的重要性不容小觑,因为它是地球结构和地球表面生命的基础。
