stratigraphical

简明释义

英[ˌstrætɪˈɡræfɪkəl]美[ˌstrætəˈɡræfɪkəl]

adj. 地层学的

英英释义

单词用法

同义词

反义词

例句

1.Regional comprehensive evaluation should be carried out by the principle of high resolution sequence strata stratigraphical study to circle the distribution of Jurassic reservoir.

区域综合评价以高精度层序地层学的研究思路为主线，圈定侏罗系储层发育的有利区域。

2.This paper introduced the principles and methods of historical reconstruction of Marine contamination based on high resolution molecular (element) stratigraphical records.

本文介绍了运用高分辨率的分子(元素)地层学记录来研究海洋污染历史的原理和方法。

3.Analysis of the fossil associations of dasycladalean algae in the Middle and Upper Triassic of Croatia is given with the emphasis on the stratigraphical ranges of particular species and associations.

对克罗地亚中三叠统和上三叠统的粗枝藻属化石组合的分析，侧重于特定的种和相关化石的地层分布方面。

4.The radiolaria fossils and submarine basalts which are first discovered afford us new material to discuss about the stratigraphical time and tectonic background of this area in Devonian period.

首次在该区发现放射虫化石和海相玄武岩地层。为探讨该区泥盆系的时代以及大地构造环境提供。

5.The occurrences give geographical and stratigraphical information as well as the name of the author.

这些发生学记录提供了地理学与地层学信息以及出版这些记录的作者姓名。

6.In oil exploration, 3d seismic data display has become an established means for studying complicated structural and stratigraphical regions.

石油勘探中，三维地震数据的显示已成为研究复杂地层构造区域的公认的勘探工具。

7.Now sequence stratigraphy is widely accepted, and is becoming standard technology of stratigraphical research.

层序地层学现在得到广泛承认，已经成为研究地层的标准技术。

8.Finally, we discuss the paleoclimate change according to the sequence stratigraphical analysis.

最后，结合层序地层划分分析了古气候变化。

9.Several new data on the Upper Permian and Permo-Triassic boundary in Huangshi area are reported in the paper, a number of significant fossils were collected from these stratigraphical units.

笔者近年对黄石地区上二叠统及下三叠统进行了研究，采到了有时代意义的化石。

10.Archaeologists rely on stratigraphical data to establish the chronology of human activity at the site.

考古学家依赖于地层数据来建立该地点人类活动的年代顺序。

11.Using stratigraphical methods, researchers were able to date the fossils accurately.

通过使用地层方法，研究人员能够准确地为化石定年。

12.The geologist conducted a detailed stratigraphical analysis of the rock layers to understand the geological history.

地质学家对岩层进行了详细的地层分析，以了解地质历史。

13.The stratigraphical profile revealed significant changes in sediment composition over time.

该地层剖面揭示了沉积物成分随时间的显著变化。

14.The stratigraphical layers in this canyon provide insights into ancient climate conditions.

这个峡谷中的地层层次提供了古代气候条件的见解。

作文

The study of the Earth's layers is crucial for understanding our planet's history, and this is where the concept of stratigraphical analysis comes into play. Stratigraphical refers to the layers of sedimentary rocks or soil that are arranged in a specific sequence, which provides insights into geological time and processes. By examining these layers, scientists can decipher not only the age of the Earth but also the environmental conditions that existed when these layers were formed. For instance, when geologists conduct stratigraphical studies, they often look at rock formations that have been deposited over millions of years. Each layer, or stratum, tells a story of the Earth’s past, revealing information about climate changes, volcanic activity, and even the evolution of life. For example, the presence of certain fossils in a stratigraphical layer can indicate what types of organisms lived during that period, as well as how they interacted with their environment. Moreover, stratigraphical analysis is not limited to just geology; it has significant implications in archaeology as well. Archaeologists utilize stratigraphical techniques to understand human history and prehistory. By excavating sites layer by layer, they can date artifacts and structures, providing a timeline of human activity. This method allows researchers to piece together the cultural and technological advancements of societies over time. One famous example of stratigraphical analysis in archaeology is the site of Pompeii, which was buried under volcanic ash in 79 AD. The layers of ash created a unique stratigraphical record that preserved buildings, artifacts, and even organic materials. By studying these layers, archaeologists have gained invaluable insights into Roman life, including their social structure, economy, and daily activities. In addition to its applications in geology and archaeology, stratigraphical methods are also essential in fields like paleontology and environmental science. Paleontologists rely on stratigraphical data to locate fossil beds and understand the chronological order of species evolution. Environmental scientists use stratigraphical principles to study soil layers, which can reveal information about past climates and help predict future ecological changes. In conclusion, the concept of stratigraphical analysis is fundamental to various scientific disciplines. It serves as a powerful tool for interpreting the history of our planet, from its geological formations to the evolution of life and human civilization. As we continue to explore and understand the layers of the Earth, the importance of stratigraphical studies will undoubtedly grow, paving the way for new discoveries and insights into our world. Understanding these layers not only enriches our knowledge of the past but also informs our approach to addressing current and future challenges related to the environment and society.

对地球层的研究对于理解我们星球的历史至关重要，而这正是stratigraphical分析概念发挥作用的地方。Stratigraphical指的是以特定顺序排列的沉积岩或土壤的层，这提供了对地质时间和过程的洞察。通过检查这些层，科学家可以解读出地球的年龄以及形成这些层时所存在的环境条件。例如，当地质学家进行stratigraphical研究时，他们通常会查看已经沉积了数百万年的岩层。每一层或称为地层，都讲述着地球过去的故事，揭示了气候变化、火山活动甚至生命进化的信息。例如，某个stratigraphical层中某些化石的存在可以指示出在那个时期存在哪些类型的生物，以及它们如何与环境互动。此外，stratigraphical分析不仅限于地质学；它在考古学中也具有重要意义。考古学家利用stratigraphical技术来理解人类历史和史前史。通过逐层挖掘遗址，他们可以对文物和结构进行定年，从而提供人类活动的时间线。这种方法使研究人员能够拼凑出社会在时间上的文化和技术进步。一个著名的stratigraphical分析例子是庞贝遗址，该遗址在公元79年被火山灰埋藏。灰烬的层形成了独特的stratigraphical记录，保存了建筑物、文物甚至有机材料。通过研究这些层，考古学家获得了关于罗马生活的宝贵见解，包括他们的社会结构、经济以及日常活动。除了在地质学和考古学中的应用外，stratigraphical方法在古生物学和环境科学等领域也至关重要。古生物学家依靠stratigraphical数据来定位化石床并理解物种进化的时间顺序。环境科学家使用stratigraphical原理来研究土壤层，这可以揭示有关过去气候的信息，并帮助预测未来的生态变化。总之，stratigraphical分析的概念是各种科学学科的基础。它作为一种强大的工具，用于解释我们星球的历史，从其地质形成到生命和人类文明的进化。随着我们继续探索和理解地球的层次，stratigraphical研究的重要性无疑将不断增长，为新的发现和对我们世界的洞察铺平道路。理解这些层次不仅丰富了我们对过去的知识，而且还为我们应对与环境和社会相关的当前和未来挑战提供了信息。