Influence of preexisting structures on salt structures in the Kuqa Depression, Tarim Basin, Western China: Insights from seismic data and numerical simulations

IF 2.8 2区地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY

Basin Research Pub Date : 2024-02-17 DOI:10.1111/bre.12850

Keji Yang, Jiafu Qi, Liangwei Xu, Yanqiu Yu, Tong Sun, Fangle Shen, Li Peng, Ji Lv, Hanting Zhao

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Abstract

The preexisting structures that developed in the basement and subsalt strata play a key role in the salt structural deformation in the Kuqa Depression, Tarim Basin. The characteristics of preexisting structures and their controls on the salt structure are investigated via the latest three-dimensional seismic data and numerical modelling. The results show that the preexisting structures that developed in the Kuqa Depression mainly consist of basement faults, palaeouplifts, subsalt slopes and early passive salt diapirs. Basement faults are mainly distributed in the Kelasu and Qiulitag structural belts and control the position of development and deformation style of the Miocene compressive salt structure. The differences in styles and reactivation degrees of basement faults lead to great diversity in the salt structure. The palaeouplifts mainly include the Wensu, western Qiulitag, Xinhe and Yaha-Luntai palaeouplifts. The original sedimentary range and later deformation space of the salt layer are limited by the palaeouplift, resulting in strong salt thrusting in the Awate sag in the western part of the Kuqa Depression. The heterogeneous spatial distribution of the palaeouplift promoted the development of regional strike-slip transform belts. Subsalt slopes are located mainly on the northern edge of the western Qiulitag low uplift and block the southward flow of the salt, causing the salt to form salt domes; the size of these domes is closely related to the subsalt slope. Early passive salt diapirs mainly developed in the Quele and Bozidun areas of the western Kuqa Depression, and they were preferentially active during the compression period, inducing the formation of a piercement salt nappe. Numerical modelling revealed that the preexisting structure strongly controlled the stress–strain distribution during the deformation of the salt structure. The spatial distribution heterogeneity of the basement structure is an important factor in the structural zonation along the north–south strike and segmentation along the west–east strike in the Kuqa Depression, as well as an important inducer of the piercement salt structure.

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中国西部塔里木盆地库车凹陷原有构造对盐构造的影响：地震数据和数值模拟的启示

在塔里木盆地库车凹陷的盐结构变形中，基底和盐下地层中发育的原有结构起着关键作用。通过最新的三维地震数据和数值模拟，研究了原生结构的特征及其对盐结构的控制作用。研究结果表明，库车凹陷中发育的原有构造主要包括基底断层、古隆起、盐下斜坡和早期被动盐层斜坡。基底断层主要分布在凯拉苏（Kelasu）和秋里塔格（Qiulitag）构造带，控制着中新世压盐构造的发育位置和变形方式。基底断层的变形方式和再活化程度不同，导致盐构造的多样性。古隆起主要包括温宿古隆起、七里塔格西部古隆起、新河古隆起和雅哈-轮台古隆起。盐层的原始沉积范围和后期变形空间受到古隆起的限制，导致库车凹陷西部的阿瓦提凹陷出现强烈的盐推移。古隆起的异质空间分布促进了区域性走向滑动转换带的发展。盐下斜坡主要位于秋里塔格西部低隆起的北部边缘，阻挡了盐的南流，使盐形成盐圆丘；这些圆丘的大小与盐下斜坡密切相关。早期的被动盐层主要发育在库车坳陷西部的奎勒和博孜墩地区，在压缩期优先活跃，诱发了穿孔盐层的形成。数值模拟显示，在盐结构变形过程中，原有结构对应力-应变分布有很强的控制作用。基底结构的空间分布异质性是库卡凹陷南北走向结构分带和东西走向结构分段的重要因素，也是穿孔盐结构的重要诱因。

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来源期刊

Basin Research 地学-地球科学综合

CiteScore

7.00

自引率

9.40%

发文量

审稿时长

>12 weeks

期刊介绍： Basin Research is an international journal which aims to publish original, high impact research papers on sedimentary basin systems. We view integrated, interdisciplinary research as being essential for the advancement of the subject area; therefore, we do not seek manuscripts focused purely on sedimentology, structural geology, or geophysics that have a natural home in specialist journals. Rather, we seek manuscripts that treat sedimentary basins as multi-component systems that require a multi-faceted approach to advance our understanding of their development. During deposition and subsidence we are concerned with large-scale geodynamic processes, heat flow, fluid flow, strain distribution, seismic and sequence stratigraphy, modelling, burial and inversion histories. In addition, we view the development of the source area, in terms of drainage networks, climate, erosion, denudation and sediment routing systems as vital to sedimentary basin systems. The underpinning requirement is that a contribution should be of interest to earth scientists of more than one discipline.