首页|Genetic Analysis of Structural Styles in the Makran Accretionary Wedge-Insight from Physical Simulations
Genetic Analysis of Structural Styles in the Makran Accretionary Wedge-Insight from Physical Simulations
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The Makran accretionary wedge has the smallest subduction angle among any accretionary prism in the world.The factors controlling the spacing and morphological development of its deep thrust faults,as well as the formation mechanism of shallow normal faults,remain unclear.Meanwhile,the factors affecting the continuity of plane faults must be comprehensively discussed.Clarifying the development characteristics and deformation mechanisms of the Makran accretionary wedge is crucial to effectively guide the explora-tion of gas hydrate deposits in the area.This study aims to interpret seismic data to identify typical structures in the Makran accre-tionary wedge,including deep imbricate thrust faults,shallow and small normal faults,wedge-shaped piggyback basins,mud diapirs with fuzzy and disorderly characteristics of reflection,décollements with a northward tilt of 1˚-2˚,and large seamounts.Physical simu-lation-based experiments are performed to comprehensively analyze the results of the plane,section,and slices of the wedge.Results reveal that the distances between and shapes of thrust faults in the deep parts of the Makran accretionary wedge are controlled by the bottom décollement.The uplift of the thrust fault-related folds and the upwelling of the mud diapirs primarily contribute to the formation of small normal faults in the shallow part of the area.The mud diapirs originate from plastic material at the bottom,while those that have developed in the area near the trench are larger.Seamounts and mud diapirs break the continuity of fault plane distribution.
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