lithified
简明释义
(使)岩化(lithify 的过去式和过去分词)
岩化的,石化的
英英释义
Converted into stone or a stony substance, typically as a result of geological processes. | 转化为石头或石质物质,通常是由于地质过程的结果。 |
单词用法
岩石化沉积物 | |
岩石化岩石 | |
岩石化材料 | |
岩石化过程 |
同义词
| 水泥化的 | 这些沉积物经过数百万年的时间被水泥化。 | ||
| 固化的 | 火山喷发后,岩浆迅速固化。 | ||
| 巩固的 | 松散的土壤巩固成一层坚固的层。 |
反义词
| 未岩化的 | The sediments remained unlithified, allowing for easy compaction. | 这些沉积物保持未岩化状态,便于压实。 | |
| 软化的 | 粘土因水而软化,更易于塑形。 |
例句
1.So the control of lithified land should focus on the forest vegetation restoration, taking matched measures and strengthening the protective system.
石漠化土地治理应以恢复森林植被为核心,注重配套措施建设,强化保障体系。
2.Because of continuous dissolution on former lithified sediments or rocks, these sediments or rocks will be broken into various sizes of clasts and pebbles.
由于雨水的不断的溶解,使原始的岩石或沉积物发生破裂,从而形成各种大小的砾块或砾石。
3.Because of continuous dissolution on former lithified sediments or rocks, these sediments or rocks will be broken into various sizes of clasts and pebbles.
由于雨水的不断的溶解,使原始的岩石或沉积物发生破裂,从而形成各种大小的砾块或砾石。
4.On top of this mess, some sand was deposited, buried, lithified into rock, and brought back up to the surface yet again.
在这堆岩层的上面,一些沙子沉积、掩埋、固化成岩,然后又被带回到表面上。
5.Geologists study how sediments become lithified to understand Earth's history.
地质学家研究沉积物如何被岩石化以了解地球的历史。
6.The lithified remains of ancient marine life can be found in limestone formations.
古代海洋生物的岩石化遗骸可以在石灰岩构造中找到。
7.When sand is compacted and cemented, it becomes lithified sandstone.
当沙子被压实和胶结时,它会变成岩石化的砂岩。
8.The sedimentary layers were eventually lithified, forming solid rock over millions of years.
这些沉积层最终被岩石化,在数百万年内形成坚固的岩石。
9.In the process of fossilization, organic materials can become lithified alongside sediments.
在化石化过程中,有机材料可以与沉积物一起被岩石化。
作文
The process of sedimentation is fascinating and plays a critical role in the formation of various geological structures. When sediments accumulate over time, they undergo a transformation that can lead to the creation of sedimentary rocks. A key term in this process is lithified, which refers to the process by which loose sediments are converted into solid rock through compaction and cementation. Understanding how materials become 石化的 helps us appreciate the history of our planet and the dynamic processes that shape its surface.Sedimentary rocks are formed from particles that have been eroded from pre-existing rocks or organic materials. These particles can include sand, silt, clay, and even fragments of shells or bones. Over time, as layers of sediment build up, the weight of the overlying material exerts pressure on the deeper layers. This pressure causes the sediments to compact, reducing the pore space between them. During this process, minerals dissolved in water can precipitate out and fill the gaps between the particles, effectively cementing them together. This dual process of compaction and cementation is what ultimately leads to the formation of lithified rocks.The significance of lithified rocks extends beyond their formation. These rocks can provide valuable insights into Earth's history, including past climates, environments, and biological activity. For example, sedimentary rocks often contain fossils, which are preserved remains of ancient organisms. By studying these fossils, scientists can reconstruct past ecosystems and understand how life has evolved over millions of years. Additionally, the characteristics of lithified rocks can indicate the conditions under which they were formed, such as whether they were deposited in a river, lake, or ocean.Furthermore, the study of lithified rocks is essential for various practical applications. In the field of geology, understanding the properties of these rocks can aid in resource exploration, such as locating oil, natural gas, and groundwater. Engineers also rely on knowledge of sedimentary formations when constructing buildings, bridges, and other infrastructure, as the stability of these structures can be influenced by the underlying geology.In conclusion, the concept of lithified plays a vital role in geology, helping us to understand the processes that shape our planet and the resources it provides. The transition from loose sediments to solid rock not only reveals the history of Earth but also has significant implications for various scientific and practical fields. As we continue to study and explore these processes, we gain a deeper appreciation for the intricate workings of our natural world and the importance of preserving it for future generations.
沉积过程是一个迷人的现象,在各种地质结构的形成中发挥着关键作用。当沉积物随着时间的推移而积累时,它们会经历一种转变,最终形成沉积岩。这个过程中的一个关键术语是lithified,指的是松散沉积物通过压实和胶结转变为固体岩石的过程。理解材料如何变得石化的有助于我们欣赏地球的历史以及塑造其表面的动态过程。沉积岩是由从先前存在的岩石或有机材料中侵蚀出来的颗粒形成的。这些颗粒可以包括沙子、淤泥、粘土,甚至是贝壳或骨骼的碎片。随着时间的推移,当沉积层逐渐堆积时,上层材料的重量对下层施加压力。这种压力导致沉积物压实,减少它们之间的孔隙空间。在这个过程中,溶解在水中的矿物可以沉淀出来,填充颗粒之间的空隙,有效地将它们结合在一起。这种压实和胶结的双重过程最终导致了lithified岩石的形成。lithified岩石的重要性超出了它们的形成。这些岩石可以提供有关地球历史的宝贵见解,包括过去的气候、环境和生物活动。例如,沉积岩通常包含化石,这些化石是古代生物的保存遗骸。通过研究这些化石,科学家可以重建过去的生态系统,了解生命如何在数百万年中演变。此外,lithified岩石的特征可以指示它们形成时的条件,例如它们是在河流、湖泊还是海洋中沉积的。此外,研究lithified岩石对于各种实际应用至关重要。在地质学领域,了解这些岩石的特性可以帮助资源勘探,例如寻找石油、天然气和地下水。工程师在建设建筑物、桥梁和其他基础设施时也依赖于对沉积层的知识,因为这些结构的稳定性可能受到底层地质的影响。总之,lithified的概念在地质学中发挥着重要作用,帮助我们理解塑造我们星球的过程及其所提供的资源。从松散沉积物到固体岩石的转变不仅揭示了地球的历史,还有重大意义,影响着各个科学和实际领域。随着我们继续研究和探索这些过程,我们对自然世界复杂运作的深刻理解和对保护自然的重视将不断加深,以便为后代留下更好的环境。
