Evaluation of Displacements Caused by Strike-Slip Deformations Using Correlation Characteristics Based on Potential Field Data

IF 0.7 Q4 GEOSCIENCES, MULTIDISCIPLINARY Russian Journal of Earth Sciences Pub Date : 2023-09-27 DOI:10.2205/2023es000847

N. Senchina, Artem Asoskov, Gleb Gorelik

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Abstract

The identification of faults is a common objective in geophysical potential field methods. Vertical discontinuities such as reverse faults, also known as tectonic faults, can easily be distinguished through their effect on gravity and magnetic fields, appearing as gradient zones or areas of change in the field. However, identifying strike-slip faults is one of the biggest challenges for potential field methods as they are characterized by a complex series of anomalies with varying signs in the fault zone, as well as displacement of anomaly axes between the strike-slipped blocks. The goal of this study is to suggest a transformation that would aid in the identification of shear zones through the calculation of the displacement along the discontinuity. The proposed approach involves calculating the correlation coefficient between parallel profiles using moving windows. The position of the window with the highest calculated correlation coefficient allows estimating of the discontinuity displacement magnitude. The method was tested using a synthetic field and data from the magnetic field of the Kolbeinsi Ridge.

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利用基于电位场数据的相关性特征评估走向滑动变形引起的位移

识别断层是地球物理势场方法的一个共同目标。逆断层（又称构造断层）等垂直不连续断层对重力场和磁场有影响，表现为磁场中的梯度区或变化区，因此很容易区分。然而，识别走向滑动断层是潜在实地方法面临的最大挑战之一，因为这些断层的特点是断层区内存在一系列复杂的异常，其符号各不相同，而且走向滑动区块之间的异常轴也会发生位移。本研究的目的是提出一种转换方法，通过计算沿不连续面的位移来帮助识别剪切带。建议的方法包括利用移动窗口计算平行剖面之间的相关系数。通过计算相关系数最高的窗口位置，可以估算出不连续面的位移大小。使用合成磁场和科尔宾西海脊磁场数据对该方法进行了测试。

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来源期刊

Russian Journal of Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-

CiteScore

1.90

自引率

15.40%

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