Relative dating of fault activity using the principle of cross-cutting relationships: An automated approach

IF 4.2 2区 地球科学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
An-Bo Li , Shi-Yu Xu , Xian-Yu Liu , Guo-Nian Lü , Xian-Li Xie , Matthew Fox
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引用次数: 0

Abstract

Fault dating plays an essential role in understanding deformation histories and modeling the tectonic evolution of orogenic belts. However, direct fault dating methods via different isotope geochronological techniques are expensive, and their use is often limited in many cases, making it essential to develop a fast and low-cost fault relative dating method. Therefore, on the basis of knowledge graphs and knowledge reasoning technology, this study proposes an automatic method to relatively date periods of fault activity using the principle of cross-cutting relationships between faults and strata. The method mainly involves (1) generating the knowledge graph based on a digital geological map; (2) using the knowledge reasoning algorithm to interpret the cross-cutting relationships amongst faults and generating the temporal sequence of fault activity; (3) relative dating the faults based on the cross-cutting relationships between faults and strata; and (4) according to the temporal sequence of fault activity, the relationship between faults can be revealed, and relative dating can be optimized. Results for cases in western Nevada and Qixia Hill of Nanjing illustrate the effectiveness of this method for interpreting the period of fault activity. The accuracy rates of the recognition results in the two cases were 90.24% and 80.77%, respectively, which means that the proposed method has the potential to relatively date fault activity across large areas. The algorithm is an effective supplement to the existing direct method of fault dating. The algorithm can efficiently infer the development sequence and the age of fault activity based on geological maps and geological cross-sections, which is of great significance for understanding regional tectonic history, evaluating earthquake disasters, and modeling tectonic evolution processes.

利用交叉关系原则确定断层活动的相对年代:自动化方法
断层测年在了解变形历史和建立造山带构造演化模型方面起着至关重要的作用。然而,通过不同同位素地质年代技术直接测定断层年代的方法成本高昂,在很多情况下其使用往往受到限制,因此开发一种快速、低成本的断层相对年代测定方法至关重要。因此,本研究以知识图谱和知识推理技术为基础,利用断层与地层之间的交叉关系原理,提出了一种断层活动期相对定年的自动方法。该方法主要包括:(1)根据数字地质图生成知识图谱;(2)利用知识推理算法解释断层之间的交叉关系,生成断层活动的时序;(3)根据断层与地层之间的交叉关系,对断层进行相对定年;(4)根据断层活动的时序,揭示断层之间的关系,优化相对定年。内华达州西部和南京栖霞山的案例结果说明了该方法在解释断层活动时期方面的有效性。两个案例的识别结果准确率分别为 90.24% 和 80.77%,这意味着所提出的方法具有对大面积断层活动进行相对定年的潜力。该算法是对现有断层测年直接方法的有效补充。该算法可根据地质图和地质断面图有效推断断层活动的发展序列和年代,对了解区域构造历史、评价地震灾害和构造演化过程建模具有重要意义。
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来源期刊
Computers & Geosciences
Computers & Geosciences 地学-地球科学综合
CiteScore
9.30
自引率
6.80%
发文量
164
审稿时长
3.4 months
期刊介绍: Computers & Geosciences publishes high impact, original research at the interface between Computer Sciences and Geosciences. Publications should apply modern computer science paradigms, whether computational or informatics-based, to address problems in the geosciences.
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