lopolith

简明释义

[ˈlɒpəlɪθ][ˈlɑːpəlɪθ]

n. [地质] 岩盆

英英释义

A lopolith is a type of igneous intrusion that is lens-shaped and lies within the layers of sedimentary rock, typically formed by the accumulation of magma at a shallow depth.

一种岩浆侵入体,呈透镜状,位于沉积岩层内,通常由在浅层深度积聚的岩浆形成。

单词用法

lopolithic rock

lopolithic 岩石

lopolith formation

lopolith 形成

a large lopolith

一个大型 lopolith

the study of lopoliths

lopolith 的研究

同义词

pluton

深成岩

The lopolith is a type of pluton that has a saucer-like shape.

lopolith是一种具有碟形的深成岩。

batholith

岩体

Batholiths are large masses of igneous rock formed from cooled magma beneath the Earth's surface.

岩体是由地球表面下冷却的岩浆形成的大型火成岩块。

反义词

volcanic rock

火山岩

Volcanic rocks are formed from lava that cools quickly on the Earth's surface.

火山岩是由在地球表面快速冷却的熔岩形成的。

plutonic rock

深成岩

Plutonic rocks, like granite, form deep within the Earth and cool slowly.

深成岩,如花岗岩,形成于地球内部,冷却缓慢。

例句

1.Occurrence: dike, sill, laccolith, lopolith, stock and batholith.

产状的定义、岩脉、岩床、岩盖、岩盆、岩株和岩基。

2.Occurrence: dike, sill, laccolith, lopolith, stock and batholith.

产状的定义、岩脉、岩床、岩盖、岩盆、岩株和岩基。

3.The study of the lopolith revealed important information about the volcanic activity in the region.

lopolith的研究揭示了该地区火山活动的重要信息。

4.The formation of a lopolith can lead to unique mineral deposits that are valuable for mining.

一个lopolith的形成可能会导致独特的矿物沉积,这对采矿来说是有价值的。

5.In our field trip, we observed a lopolith that formed during the late Jurassic period.

在我们的实地考察中,我们观察到一个在晚侏罗世时期形成的lopolith

6.The geologist explained that a lopolith is a large, lens-shaped body of igneous rock that has a flat bottom.

地质学家解释说,lopolith 是一种大型、透镜状的火成岩体,底部平坦。

7.Researchers are particularly interested in how a lopolith can influence surrounding sedimentary layers.

研究人员特别感兴趣的是lopolith如何影响周围的沉积层。

作文

The term lopolith refers to a specific type of geological formation characterized by its unique structure and composition. In geology, understanding various formations is crucial for comprehending the Earth's processes and history. A lopolith is essentially a large, basin-like intrusion that is formed when magma rises and spreads out horizontally beneath the Earth's surface. This process can lead to the creation of significant mineral deposits, making lopoliths important not only for academic study but also for practical applications in mining and resource extraction.In many ways, lopoliths serve as natural laboratories where scientists can observe the effects of igneous activity over time. The study of these formations provides insights into the conditions under which they were created, including temperature, pressure, and the chemical environment. For instance, researchers have found that the minerals within a lopolith can vary widely depending on the source of the magma and the surrounding rock types. This variability makes them fascinating subjects for geologists who aim to reconstruct the geological history of an area.One notable example of a lopolith is the Bushveld Igneous Complex in South Africa, which is one of the largest and most well-known lopoliths in the world. It is famous for its rich deposits of platinum group metals and has been extensively studied for its economic significance. The complex's unique composition has led to numerous discoveries about the behavior of magma during its ascent and the subsequent crystallization processes that occur as it cools.The economic implications of studying lopoliths cannot be overstated. As the demand for various minerals continues to grow, understanding where these resources are located becomes increasingly important. Mining companies often rely on geological surveys that include the identification of lopoliths to guide their exploration efforts. The presence of a lopolith can indicate a wealth of resources beneath the surface, leading to more targeted and efficient mining operations.Moreover, the environmental aspects of lopolith studies are gaining attention as well. As we become more aware of the impact of mining on ecosystems, understanding the geological context of these formations can help in developing better practices for resource extraction. By studying the characteristics of lopoliths, scientists can assess the potential environmental consequences of mining activities and work towards minimizing negative impacts.In conclusion, the study of lopoliths is a vital aspect of geology that encompasses not only the scientific inquiry into the Earth's processes but also the practical implications for resource management and environmental stewardship. As we continue to explore and understand these fascinating geological features, we unlock valuable information that can benefit both science and society. The ongoing research in this field emphasizes the importance of lopoliths in our quest to understand the Earth's complex systems and our place within them.

术语lopolith指的是一种特定类型的地质构造,其特征在于其独特的结构和成分。在地质学中,理解各种构造对理解地球的过程和历史至关重要。lopolith本质上是一个大型的、盆状的侵入体,形成于岩浆上升并在地表下水平扩散的过程中。这一过程可以导致重要矿物沉积的形成,使得lopoliths不仅对学术研究重要,也对采矿和资源开采的实际应用至关重要。在许多方面,lopoliths作为自然实验室,科学家可以观察火成活动随时间变化的影响。对这些构造的研究提供了关于它们形成条件的见解,包括温度、压力和化学环境。例如,研究人员发现,lopolith内的矿物可能因岩浆来源和周围岩石类型而大相径庭。这种变异性使得它们成为地质学家研究区域地质历史的迷人对象。一个著名的lopolith例子是南非的布什维尔德火成岩复合体,它是世界上最大和最著名的lopoliths之一。它因丰富的铂族金属矿藏而闻名,并因其经济意义而被广泛研究。该复合体的独特成分导致了许多关于岩浆在上升过程中的行为及其冷却时发生的结晶过程的发现。研究lopoliths的经济意义不可低估。随着对各种矿物需求的持续增长,了解这些资源的位置变得越来越重要。采矿公司通常依赖包括lopoliths识别的地质调查来指导他们的勘探工作。lopolith的存在可以指示地下丰富的资源,从而导致更有针对性和高效的采矿作业。此外,lopolith研究的环境方面也日益受到关注。随着我们对采矿对生态系统影响的认识加深,理解这些构造的地质背景可以帮助开发更好的资源开采实践。通过研究lopoliths的特征,科学家可以评估采矿活动的潜在环境后果,并努力减少负面影响。总之,lopoliths的研究是地质学的重要方面,涵盖了对地球过程的科学探究以及对资源管理和环境保护的实际意义。随着我们继续探索和理解这些迷人的地质特征,我们解锁了有价值的信息,这些信息可以惠及科学和社会。该领域的持续研究强调了lopoliths在我们理解地球复杂系统及我们在其中位置的追求中的重要性。