Fault system, deformation style and development mechanism of the Bachu uplift, Tarim basin

Dianjun Tong, Junxia Zhang, Huaizhong Yang, Desheng Hu, Jianye Ren

Journal of Earth Science ›› 2012, Vol. 23 ›› Issue (4) : 529-541.

Journal of Earth Science ›› 2012, Vol. 23 ›› Issue (4) : 529-541. DOI: 10.1007/s12583-012-0273-2
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Fault system, deformation style and development mechanism of the Bachu uplift, Tarim basin

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Abstract

The Bachu (巴楚) uplift is one of the most active tectonic regions nowadays in the Tarim basin, which is also a faulted block uplift that was intensively active during the Cenozoic. This study was based primarily on the geological structure interpretation of seismic profiles, applying the theories and methods of basin dynamics, structural analysis and tectono-stratigraphic analysis, the geometry and kinematics features of the fault systems in the Bachu uplift were analyzed in detail. Our study shows that each fault belt is mainly characterized by compression and overthrusting, most of the faults initiated and activated during the Mid-Late Himalayan period, and that the general structural styles of the Bachu uplift were basement-involved pop-up thrust faulted block uplift, of which the southern margin was covered by the large-scale decollement fault system. The basement-involved structures widely developed in the higher position of the basement uplift, while decollement fault system developed mainly at the position with gypsum mudstone. The evolution process of Bachu uplift included back-bulge slope of the peripheral foreland basin in Mid-Late Caledonian, forebulge in Hercynian-Yanshanian and the latest compressional faulted block uplift in Mid-Late Himalayan. Meanwhile, the study also suggests that the formation, reconstruction and stabilization of the uplift were controlled by the development and evolution of fault systems clearly. In the early forebulge stage, it was mainly presented as flexural deformation without the developing of thrust faults in the Bachu area; to the late stage, under the influence of violent lateral compression deformation, the faulted block uplift formed finally.

Keywords

fault system / structural style / structural evolution / Bachu uplift / Tarim basin

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Dianjun Tong, Junxia Zhang, Huaizhong Yang, Desheng Hu, Jianye Ren. Fault system, deformation style and development mechanism of the Bachu uplift, Tarim basin. Journal of Earth Science, 2012, 23(4): 529‒541 https://doi.org/10.1007/s12583-012-0273-2

References

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Andrea C. F., Marco B., Patrizia M., . Lithological Control on Thrust-Related Deformation in the Sassa-Guardistallo Basin (Northern Apennines Hinterland, Italy). Basin Research, 2006, 18(2): 301-321.
Buslov M. M., De Grave J., Bataleva E. A. V., . Cenozoic Structure and Geodynamic Evolution of the Kyrgyz Tien Shan Mountains: A Review of Geological, Thermochronological and Geophysical Data. Journal of Asian Earth Sciences, 2007, 29(2–3): 205-214.
CrossRef Google scholar
Dávila F. M., Astini R. A.. Cenozoic Provenance History of Synorogenic Conglomerates in Western Argentina (Famatina Belt): Implications for Central Andean Foreland Development. Geological Society of America, 2007, 119(4): 609-622.
CrossRef Google scholar
DeCelles P. G., Giles K. A.. Foreland Basin Systems. Basin Research, 1996, 8(2): 105-123.
CrossRef Google scholar
Dickinson W. R., Anderson R. N., Biddle K. T., . The Dynamics of Sedimentary Basins. Panel of the Geodynamics of Sedimentary Basins, U.S. Geodynamics Committee, Board on Earth Sciences and Resources, Commission on Geosciences, Environment, and Resources, National Research Council, 1997, Washington: National Academy Press 43 44
Ding W. L., Lin C. S., Qi L. X., . Structural Framework and Evolution of Bachu Uplift in Tarim Basin. Earth Science Frontiers, 2008, 15(2): 242-252.
Erslev E. A.. Trishear Fault-Propagation Folding. Geology, 1991, 19(8): 617-620.
CrossRef Google scholar
Giambiagi L., Bechis F., García V., . Temporal and Spatial Relationships of Thick- and Thin-Skinned Deformation: A Case Study from the Malargue Fold-and-Thrust Belt, Southern Central Andes. Tectonophysics, 2008, 459(12–4): 123-139.
CrossRef Google scholar
Hardy S., Ford M.. Numerical Modeling of Trishear Fault Propagation Folding. Tectonics, 1997, 16(5): 841-854.
CrossRef Google scholar
He D. F., Jia C. Z., Li D. S., . Formation and Evolution of Polycyclic Superimposed Tarim Basin. Oil & Gas Geology, 2005, 26(1): 64-77.
He D. F., Zhou X. Y., Yang H. J., . Formation Mechanism and Tectonic Types of Intracratonic Paleo-Uplifts in the Tarim Basin. Earth Science Frontiers, 2008, 15(2): 207-221.
He G. Y., He Z. L., Zhang H. A., . Paleozoic Structural Deformation of Bachu Uplift, Tarim Basin of Northwest China: Implications for Plate Drifting. Journal of Earth Science, 2009, 20(4): 755-762.
CrossRef Google scholar
He W. Y., Li J. H., Qiao X. L., . The Meso-Cenozoic Evolution of Bachu Fault-Uplift in Tarim Basin. Acat Scicentiarum Naturalum Universitis Pekinesis, 2000, 36(4): 539-545.
Jia C. Z., Wei G. Q., Li B. L., . Tectonic Evolution of Two-Epoch Foreland Basins and Its Control for Natural Gas Accumulation in China’s Mid-Western Areas. Acta Petrolei Sinica, 2003, 24(2): 13-17.
Keller, M., Bahlburg, H., Reuther, C. D., et al., 2007. Flexural to Broken Foreland Basin Evolution as a Result of Variscan Collisional Events in Northwestern Spain. In: Hatcher, R. D., Carlson, J. R., McBride, M. P., et al., eds., 4-D Framework of Continental Crust. Geological Society of America Memoir, 200: 1–22, doi:10.1130/2007.1200(25)
Liu J. Y., Lin C. S., Peng L., . Distribution Patterns of the End of the Middle Devonian Tectonic Unconformity and Their Constrain on the Development and Distribution of Favorable Stratigraphic Traps in the Tarim Basin. Oil & Gas Geology, 2008, 29(2): 268-275.
Mansurbeg H., Caja M. A., Marfil R., . Diagenetic Evolution and Porosity Destruction of Turbiditic Hybrid Arenites and Siliciclastic Sandstones of Foreland Basins: Evidence from the Eocene Hecho Group, Pyrenees, Spain. Journal of Sedimentary Research, 2009, 79(9): 711-735.
CrossRef Google scholar
Mortimer E., Carrapa B., Coutand I., . Fragmentation of a Foreland Basin in Response to Out-of-Sequence Basement Uplifts and Structural Reactivation: El Cajón-Campo del Arenal Basin, NW Argentina. GSA Bulletin, 2007, 119(4): 637-653.
CrossRef Google scholar
Ren J. Y., Zhang J. X., Yang H. Z., . Analysis of Fault Systems in the Central Uplift, Tarim Basin. Acta Petrologica Sinica, 2011, 27(1): 219-230.
Rich J. L.. Mechanics of Low-Angle Overthrust Faulting as Illustrated by Cumberland Thrust Block, Virginia, Kentucky and Tennessee. AAPG Bulletin, 1934, 18(12): 1584-1596.
Rowan M. G., Linares R.. Fold-Evolution Matrices and Axial-Surface Analysis of Fault-Bend Folds: Application to the Medina Anticline, Easter Cordillera, Colombia. AAPG Bulletin, 2000, 84(6): 741-764.
Suppe J.. Geometry and Kinematics of Fault-Bend Folding. American Journal of Science, 1983, 283(3): 684-721.
CrossRef Google scholar
Suppe J., Medwedeff D.. Geometry and Kinematics of Fault-Propagation Folding. Eclogue Geological Helvetia, 1990, 83(2): 409-454.
Wu G. H., Li Q. M., Xiao Z. Y., . The Evolution Characteristics of Palaeo-Uplifts in Tarim Basin and Its Exploration Directions for Oil and Gas. Geotectonica et Metallogenia, 2009, 33(1): 124-130.
Yang M. H., Jin Z. J., X. X., . Basement Involved Transpressional Structure and the Formation of the Bachu Uplift, Tarim Basin, Northwestern China. Acta Geologica Sinica, 2007, 81(2): 158-165.
Zhai G. M., He W. Y.. An Important Petroleum Exploration Region in Tarim Basin. Acta Petrolei Sinica, 2004, 25(1): 1-7.
Zhu D. F., Liu H. F., Wu G. Y.. Main Characteristics and Structural Evolution of the Tumxuk Fault Zone in the Western Tarim Basin. Chinese Journal of Geology, 2008, 43(2): 209-227.

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