The effects of salt flow on the cross-section restoration of salt-bearing fold-and-thrust belts: An example from the Kuqa depression

The effects of salt flow on the cross-section restoration of salt-bearing fold-and-thrust belts: An example from the Kuqa depression

Thrust sequence analysis using cross-section restoration is critical for understanding the evolution involved in folds and thrusts as well as kinematics, the distribution of strain, and hydrocarbon accumulation. However, the application of cross-section restoration is challenging in salt-bearing fol...

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Bibliographic Details
Published in:Journal of structural geology Vol. 167; p. 104795
Main Authors: He, Wanhui, Wang, Wei, Xie, Huiwen, Yin, Hongwei, Jia, Dong, Xu, Zhenping, Luo, Haoyu, Yuan, Rui
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-02-2023
Subjects:
Cross-section restoration
Kuqa depression
Salt flow
Salt-bearing fold-and-thrust belt
Sub-salt fault activity
Salt flow
Salt-bearing fold-and-thrust belt
Cross-section restoration
Kuqa depression
Sub-salt fault activity
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Summary:Thrust sequence analysis using cross-section restoration is critical for understanding the evolution involved in folds and thrusts as well as kinematics, the distribution of strain, and hydrocarbon accumulation. However, the application of cross-section restoration is challenging in salt-bearing fold-and-thrust belts. Salt flow causes uncertainty and difficulty in quantifying the geometry because of salt mobility and poorly constrained deformation kinematics. In this paper, we first analyze the role of salt flow in the cross-section restoration of salt-bearing fold-and-thrust belts using a synthetic model. Then an applicable method has been systematically described to quantify the effect of salt flow on the cross-section restoration. The method is efficient in determining the sub-salt thrust sequence, whereas accurate fault throw can be restored when the history of salt flow is known. Two well-constrained seismic profiles in the western Kuqa salt-bearing fold-and-thrust belts are restored sequentially to analyze the evolutionary process of sub-salt faults. The results show that the sub-salt thrust system propagates forward in sequence in the Bozi segment and out of sequence in the Dabei segment. The differential evolution of the sub-salt thrust between the Bozi and Dabei segments forms an oblique transfer zone. This study shows that understanding salt flow is the key point for cross-section restoration in salt-bearing fold-and-thrust belts, and relationships between supra-salt deformations and sub-salt thrust can be built by clarifying the contribution of salt flow. •Further understanding the relationship between the suprasalt and subsalt deformation.•Quantitatively calculate the influence of salt flow in the balanced restoration.•The reliability of restoration results can be judged by the total salt flow.•Different fault development sequences lead to differences in deformation in study area.
ISSN:0191-8141
1873-1201
DOI:10.1016/j.jsg.2023.104795