lithoid

简明释义

[ˈlɪθɔɪd][ˈlɪθɔɪd]

adj. 石质的;像石头的

英英释义

Resembling or having the characteristics of stone.

类似于或具有石头特征的。

单词用法

lithoid rock

石状岩

lithoid structure

石状结构

lithoid formations

石状地层

lithoid minerals

石状矿物

同义词

stony

石质的

The landscape was characterized by stony hills and valleys.

这个风景以石质的山丘和山谷为特征。

rocky

多岩石的

The rocky terrain made it difficult for vehicles to pass.

多岩石的地形使车辆难以通行。

mineral

矿物的

Mineral deposits were found in the lithoid layers.

在石质层中发现了矿物沉积。

granular

颗粒状的

The soil had a granular texture, indicating its stony origin.

土壤具有颗粒状的质地,表明其石质来源。

反义词

organic

有机的

Organic compounds are essential for life.

有机化合物对生命至关重要。

biological

生物的

Biological processes are crucial for ecosystem balance.

生物过程对生态系统的平衡至关重要。

例句

1.There are lots of lithoid cultural relics with high value of research, art and travel development.

我国西南地区石质文物种类多、数量大,具有极高的研究价值、艺术价值和旅游开发利用价值。

2.There are lots of lithoid cultural relics with high value of research, art and travel development.

我国西南地区石质文物种类多、数量大,具有极高的研究价值、艺术价值和旅游开发利用价值。

3.A lithoid surface is often found in areas with high volcanic activity.

在火山活动频繁的地区,常常可以找到岩石状的表面。

4.The museum's exhibit featured various lithoid specimens from around the world.

博物馆的展览展示了来自世界各地的各种岩石状标本。

5.The scientist discovered a new type of rock that was classified as lithoid.

科学家发现了一种被分类为岩石状的新型岩石。

6.The ancient ruins were built using lithoid materials that have stood the test of time.

古代遗址是用经得起时间考验的岩石状材料建造的。

7.In geology, lithoid formations can provide important clues about the Earth's history.

在地质学中,岩石状的地层可以提供关于地球历史的重要线索。

作文

In the realm of geology, the term lithoid refers to a rock-like structure or material that exhibits properties similar to those of stone. Understanding the characteristics and significance of lithoid formations can provide valuable insights into the Earth's geological history and the processes that shape our planet. The study of lithoid materials is crucial for geologists, as it helps them to classify different types of rocks and understand their formation mechanisms. The word lithoid is derived from the Greek word 'lithos', meaning stone. This etymology highlights the connection between lithoid substances and traditional rock formations. In many cases, lithoid materials are formed through processes such as crystallization, sedimentation, and metamorphism. For example, igneous rocks, which form from the cooling and solidification of molten magma, can be classified as lithoid due to their solid, stone-like nature. Similarly, sedimentary rocks, which are formed from the accumulation and compaction of mineral particles, can also exhibit lithoid characteristics.Moreover, the study of lithoid formations plays a critical role in various fields such as construction, mining, and environmental science. In construction, understanding the properties of lithoid materials is essential for selecting appropriate building materials that can withstand weathering and erosion. For instance, granite, a common lithoid rock, is often used in countertops and flooring due to its durability and aesthetic appeal.In addition to practical applications, lithoid formations also hold significant cultural and historical value. Many ancient civilizations utilized lithoid materials in their architecture, sculptures, and tools. The Pyramids of Giza, for example, were constructed using limestone, a lithoid material that has stood the test of time. These structures not only showcase the ingenuity of human engineering but also highlight the importance of lithoid resources in shaping human history.Furthermore, the exploration of lithoid formations can lead to discoveries of fossil fuels and minerals, which are vital for modern industry and energy production. Geologists often conduct surveys and studies on lithoid deposits to identify potential sites for extraction. This process not only contributes to economic growth but also raises awareness about the need for sustainable resource management.In conclusion, the term lithoid encompasses a wide range of rock-like materials that play a significant role in geology, construction, culture, and resource management. By studying lithoid formations, we gain a deeper understanding of the Earth's processes and the materials that have shaped our world. As we continue to explore and utilize these lithoid resources, it is essential to balance our needs with the preservation of the environment for future generations.

在地质学领域,术语lithoid指的是一种岩石状的结构或材料,具有类似于石头的特性。理解lithoid形成的特征和重要性可以为我们提供有关地球地质历史及塑造我们星球的过程的宝贵见解。对lithoid材料的研究对地质学家至关重要,因为它帮助他们分类不同类型的岩石并理解其形成机制。lithoid这个词源自希腊语“lithos”,意为石头。这一词源突显了lithoid物质与传统岩石形成之间的联系。在许多情况下,lithoid材料是通过结晶、沉积和变质等过程形成的。例如,火成岩是由熔融岩浆冷却和固化形成的,可以被归类为lithoid,因为它们具有固体、石头般的特性。同样,沉积岩是由矿物颗粒的积累和压实形成的,也可以表现出lithoid特征。此外,对lithoid形成的研究在建筑、采矿和环境科学等多个领域发挥着关键作用。在建筑中,了解lithoid材料的特性对于选择能够抵御风化和侵蚀的合适建筑材料至关重要。例如,花岗岩是一种常见的lithoid岩石,因其耐用性和美观性而常用于台面和地板。除了实际应用,lithoid形成还具有重要的文化和历史价值。许多古代文明在建筑、雕塑和工具中利用lithoid材料。比如,吉萨金字塔就是使用石灰岩建造的,这是一种经受住时间考验的lithoid材料。这些结构不仅展示了人类工程的聪明才智,还突显了lithoid资源在塑造人类历史中的重要性。此外,对lithoid形成的探索可能会导致化石燃料和矿物的发现,这对现代工业和能源生产至关重要。地质学家通常会对lithoid沉积物进行调查和研究,以确定潜在的开采地点。这个过程不仅促进了经济增长,还提高了人们对可持续资源管理必要性的认识。总之,术语lithoid涵盖了一系列岩石状的材料,在地质学、建筑、文化和资源管理中发挥着重要作用。通过研究lithoid形成,我们对地球的过程以及塑造我们世界的材料有了更深入的理解。随着我们继续探索和利用这些lithoid资源,平衡我们的需求与环境保护对于未来几代人来说至关重要。