interstratify

简明释义

[ˌɪntəˈstrætɪˌfaɪ][ˌɪntərˈstrætəˌfaɪ]

v. (地质学)放(岩层)在地层间;安排于隔层之间

第 三 人 称 单 数 i n t e r s t r a t i f i e s

现 在 分 词 i n t e r s t r a t i f y i n g

过 去 式 i n t e r s t r a t i f i e d

过 去 分 词 i n t e r s t r a t i f i e d

英英释义

To arrange or layer different materials or substances in alternating strata or layers.

将不同的材料或物质以交替的层次或层进行排列或分层。

单词用法

interstratify different rock types

将不同的岩石类型交错层叠

interstratify mineral deposits

将矿物沉积交错层叠

interstratified sedimentary layers

交错层叠的沉积层

interstratified sequences

交错层叠的序列

interstratified formations

交错层叠的地层

interstratified units

交错层叠的单元

同义词

interleave

交错

The artist decided to interleave different textures in her painting.

艺术家决定在她的画作中交错不同的纹理。

layer

层叠

Geologists often layer sedimentary rocks to understand the earth's history.

地质学家经常将沉积岩层叠以了解地球的历史。

stratify

分层

In ecology, species can stratify within a habitat based on their needs.

在生态学中,物种可以根据其需求在栖息地中分层。

反义词

separate

分开

They decided to separate the two groups for the experiment.

他们决定将这两个组分开进行实验。

isolate

隔离

The researcher aimed to isolate the variables in the study.

研究者旨在隔离研究中的变量。

例句

1.In this study, we aim to understand how different ecosystems interstratify 交替层叠 within the same geographical area.

在这项研究中,我们旨在了解不同生态系统如何在同一地理区域内交替层叠

2.The sedimentary deposits interstratify 交替层叠 with volcanic ash, indicating a dynamic geological history.

沉积物与火山灰交替层叠,表明了一个动态的地质历史。

3.The researchers observed that certain species interstratify 交替层叠 in the forest, affecting biodiversity.

研究人员观察到某些物种在森林中交替层叠,影响了生物多样性。

4.The artist used various colors to interstratify 交替层叠 the background of her painting, creating depth.

艺术家使用各种颜色来交替层叠她画作的背景,创造出深度感。

5.Geologists found that the different rock layers were able to interstratify 交替层叠 in a complex manner.

地质学家发现不同的岩层能够以复杂的方式交替层叠

作文

In the field of geology, the term interstratify refers to the process by which different layers of sedimentary rock are deposited in a manner that they alternate or are interspersed with one another. This phenomenon is crucial for understanding the geological history of an area, as it can reveal insights about past environmental conditions and the processes that shaped the Earth’s surface. For instance, when we examine a cliff face, we may observe various layers of rock that have been interstratified over millions of years. Each layer tells a story, from ancient riverbeds to volcanic ash deposits, showcasing the dynamic nature of our planet.The significance of interstratification extends beyond geology; it also finds relevance in other fields such as archaeology and environmental science. In archaeology, understanding how different cultural layers are interstratified can provide valuable information about human history and societal changes. For example, excavations at an ancient site may reveal structures and artifacts that have been buried under layers of soil, each representing a different time period. By studying these interstratified layers, archaeologists can reconstruct the timeline of human activity, migration, and adaptation to changing climates.Moreover, in environmental science, the concept of interstratification can be applied to analyze ecosystems. Different habitats, such as wetlands, forests, and grasslands, often coexist in a interstratified manner. This means that various ecological layers interact with one another, influencing biodiversity and species distribution. Understanding these interactions is essential for conservation efforts, as it helps scientists identify critical areas that need protection to maintain ecological balance.The process of interstratifying is not limited to natural occurrences; it can also be seen in human-made structures. For instance, in urban planning, different layers of infrastructure, such as roads, utilities, and green spaces, can be interstratified to create a functional and aesthetically pleasing environment. The challenge lies in ensuring that these layers coexist harmoniously, providing both functionality and sustainability.In conclusion, the term interstratify encapsulates a fundamental concept that permeates various disciplines, from geology to archaeology to environmental science and urban planning. Recognizing the importance of interstratification allows us to appreciate the complexity of our world, where different layers—be they geological, cultural, ecological, or infrastructural—are intricately woven together. As we continue to explore and study these layers, we gain a deeper understanding of the past, present, and future of our planet and its inhabitants. Therefore, whether we are examining rocks, artifacts, ecosystems, or cityscapes, the concept of interstratify serves as a reminder of the interconnectedness of all things in our world.

在地质学领域,术语interstratify指的是不同层次的沉积岩以交替或交错的方式沉积的过程。这一现象对于理解一个地区的地质历史至关重要,因为它可以揭示过去环境条件和塑造地球表面的过程的见解。例如,当我们检查悬崖的面时,我们可能会观察到各种岩石层,这些岩石层在数百万年中被interstratified。每一层都讲述着一个故事,从古老的河床到火山灰沉积,展示了我们星球的动态特性。interstratification的意义超越了地质学,它在考古学和环境科学等其他领域也具有相关性。在考古学中,理解不同文化层是如何被interstratified可以提供关于人类历史和社会变化的宝贵信息。例如,在一个古代遗址的挖掘中,可能会揭示出埋藏在土壤层下的结构和文物,每个代表着不同的时间段。通过研究这些interstratified层,考古学家可以重建人类活动、迁徙和适应气候变化的时间线。此外,在环境科学中,interstratification的概念可以应用于分析生态系统。不同的栖息地,如湿地、森林和草原,通常以interstratified的方式共存。这意味着各种生态层相互作用,影响生物多样性和物种分布。理解这些相互作用对保护工作至关重要,因为它帮助科学家识别需要保护的关键区域,以维持生态平衡。interstratifying的过程不仅限于自然现象;它也可以在人工结构中看到。例如,在城市规划中,不同的基础设施层,如道路、公用事业和绿地,可以interstratified以创建一个功能性和美观的环境。挑战在于确保这些层和谐共存,提供功能性和可持续性。总之,术语interstratify概括了一个基本概念,这一概念渗透到各个学科,从地质学到考古学再到环境科学和城市规划。认识到interstratification的重要性使我们能够欣赏我们世界的复杂性,在这里,不同的层——无论是地质的、文化的、生态的还是基础设施的——都是错综复杂地交织在一起。随着我们继续探索和研究这些层,我们对我们星球及其居民的过去、现在和未来有了更深刻的理解。因此,无论我们是在检查岩石、文物、生态系统还是城市景观,interstratify的概念提醒我们,世界上所有事物都是相互联系的。