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

Author:

Yang Keji1,Qi Jiafu2,Xu Liangwei3,Yu Yanqiu1,Sun Tong4,Shen Fangle5,Peng Li6,Lv Ji6,Zhao Hanting6

Affiliation:

1. Hebei Key Laboratory of Strategic Critical Mineral Resources, College of Earth and Science Hebei GEO University Shijiazhuang China

2. State Key Laboratory of Petroleum Resources and Prospecting, College of Earth and Science China University of Petroleum (Beijing) Changping, Beijing China

3. School of Resources and Environment Henan Polytechnic University Jiaozuo China

4. Research Institute of Exploration and Development, Dagang Oilfield CNPC Tianjin China

5. Huaxin College of Hebei GEO University Shijiazhuang China

6. Bureau of Geophysics Prospecting Inc., CNPC, Research Center of Geology Zhuozhou China

Abstract

AbstractThe 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.

Funder

Natural Science Foundation of Hebei Province

Publisher

Wiley

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