The fault activity, tectonic subsidence history, and geodynamics of syn‐depositional faults during the Palaeogene in Liaodong Bay, Bohai Bay Basin

Xia, Shiqiang; Lin, Changsong; Li, Xin; Du, Xuebin; Li, Hong

doi:10.1002/gj.4486

Geological Journal

2022

DOI: 10.1002/gj.4486

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The fault activity, tectonic subsidence history, and geodynamics of syn‐depositional faults during the Palaeogene in Liaodong Bay, Bohai Bay Basin

Shiqiang Xia

Changsong Lin

Xin Li

et al.

Abstract: The fault activity, tectonic subsidence history, and geodynamics are analysed based on borehole information and seismic datasets from Liaodong Bay. The results reveal that the faults are intensely active (resulting in the faults that are characterized by more lengths and more throws) both in the northern and southern portions of the study area, while the faults are not active in the central portion of the study area during Kongdian Formation and Shahejie Formation deposition. However, the faults are generally … Show more

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Cited by 3 publications

References 57 publications

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Structural Characteristics of the Fault Zone and Fault-Controlled Hydrocarbon Accumulation in the Chenghai Area of Dagang Offshore

Chen,

Liu,

Jiang

et al. 2024

ACS Omega

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The Chenghai area is a secondary structural unit within the Qikou sag of the Bohai Bay Basin, located in the southern part of the Dagang offshore area, known for its abundant oil and gas resources. Influenced by multiple episodes of tectonic activity, the Chenghai area exhibits a highly developed fault system, which significantly impacts oil and gas exploration in the region. To investigate the structural characteristics of fault zones in the Chenghai area and their petroleum geological significance, this study builds upon previous research by utilizing oilfield drilling data and relevant seismic information. Through methods such as fault growth index analysis, structural evolution history, and examination of typical oil and gas reservoir profiles, a detailed structural analysis of fault-controlled hydrocarbon accumulation in this petroleum region was conducted. The results reveal three types of fault classifications in the study area: basal-controlled continuously active faults, buried reactivated segmented growth-connected faults, and late-stage continuously active isolated growth faults. The structural evolution is divided into four stages: the pre-Paleogene basement formation stage, the Rifting I stage of intense extensional deformation, the Rifting II stage of extensional stress reversal and intense deformation, and the post-Eocene weak extensional deformation-stable burial stage. The fault-controlled accumulation models include three types: faultguided longitudinal accumulation, lateral sealing fault masking accumulation, and far-source step-like fault-guided accumulation. The formation of fault zones and fault-controlled oil and gas reservoirs in the Chenghai area is primarily influenced by inherited development faults, which determine the overall macroscopic distribution of oil and gas. The formation of oil and gas reservoirs occurred relatively late, with a general trend of decreased fault activity during this period, facilitating the effective accumulation and sealing of hydrocarbons.

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Structural Characteristics of the Fault Zone and Fault-Controlled Hydrocarbon Accumulation in the Chenghai Area of Dagang Offshore

Chen,

Liu,

Jiang

et al. 2024

ACS Omega

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The controls of strike-slip faults on fracture systems: Insights from 3D seismic data in the central Tarim Basin, northwest China

et al. 2023

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The central Tarim Basin has garnered significant attention due to its petroleum reserves, particularly the recent commercial discovery of Ordovician-age carbonate reservoirs in the Shunbei Oil and Gas Field. This study presents a systematic analysis based on 3D seismic interpretation in the central Tarim Basin. The results reveal the presence of several major strike-slip faults and associated fracture systems. The characteristics of these major strike-slip faults exhibit a lower positive or negative flower structure in the Lower-Middle Ordovician, while faults in the Upper Ordovician display a normal sense of movement attributed to the regional stress field. Furthermore, these major strike-slip faults commonly give rise to fractures at various scales. The fracture systems in different segments of the major strike-slip faults exhibit notable differences in their characteristics. Additionally, two models are proposed to describe strike-slip fault-associated fracture systems in both compressional and extensional settings. The development of fracture systems is highly variable and depends on the scale of the strike-slip fractured zone. In small-scale shear zones or strike-slip fractured zones, the fracture systems typically develop along the fracture plane. Conversely, in large-scale strike-slip fractured zones, the fracture systems commonly develop along the fault zone on both sides.

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Periodic Characteristics of the Paleogene Tectonic Activity and Sedimentation Responses in the Deep-Water of Qiongdongnan Basin, South China Sea

Meng

Song

et al. 2023

Minerals

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In this study, the periodic evolution and characteristics of the Palaeogene tectonic activity in the deep-water area of the Qiongdongnan Basin were revealed through the identification and analysis of the regional angular unconformity and the characteristics of the periodic fault activity. In addition to a comprehensive analysis of the controls on sedimentary paleogeomorphologic background, sedimentary characteristics and evolution by periodic rifting are systematically discussed. The studies have shown that the tectonic activity of the Paleogene Qiongdongnan Basin underwent three separate rifting phases: Phase-I (T100–T80), Phase-II (T80–T70), and Phase-III (T70–T60). The early phase of rifting was dominated by strong differential block-fault settlement, while the later phase was gradually replaced by homogeneous settlement controlled by regional depressions and a small amount of fault activity, characterized by a weak-strong-weak evolution. From Phase-I to Phase-III, the paleo-geomorphology margin changed from a large gradient to a gentle gradient, the subsidence center moved from the initial basin margin to the later basin center, and the basin-marginal fans extended finitely before developing on a large lateral scale in the later Phase-III. Analyzing the characteristics of periodic tectonic evolution and sedimentation response is important for petroleum exploration in marine basins, such as locating economic reservoirs.

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The fault activity, tectonic subsidence history, and geodynamics of syn‐depositional faults during the Palaeogene in Liaodong Bay, Bohai Bay Basin

Cited by 3 publications

References 57 publications

Structural Characteristics of the Fault Zone and Fault-Controlled Hydrocarbon Accumulation in the Chenghai Area of Dagang Offshore

Structural Characteristics of the Fault Zone and Fault-Controlled Hydrocarbon Accumulation in the Chenghai Area of Dagang Offshore

The controls of strike-slip faults on fracture systems: Insights from 3D seismic data in the central Tarim Basin, northwest China

Periodic Characteristics of the Paleogene Tectonic Activity and Sedimentation Responses in the Deep-Water of Qiongdongnan Basin, South China Sea

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