En Echelon Faults and Basin Structure in Huizhou Sag, South China Sea: Implications for the Tectonics of the SE Asia

Boubacar Hamidou Leyla, Jianye Ren, Jing Zhang, Chao Lei

Journal of Earth Science ›› 2015, Vol. 26 ›› Issue (5) : 690-699.

Journal of Earth Science ›› 2015, Vol. 26 ›› Issue (5) : 690-699. DOI: 10.1007/s12583-015-0588-x
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En Echelon Faults and Basin Structure in Huizhou Sag, South China Sea: Implications for the Tectonics of the SE Asia

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Abstract

The Huizhou sag is situated on the continental shelf of the northern continental margin of the South China Sea. In this paper we present a grid of reflection seismic and well data to characterize the basin structure and prominent unconformities. We employ EBM and 2DMOVE softwares to explore the subsidence history and stratigraphic development history of the basin. We found a rapid subsidence period since 15.5 Ma. Moreover, we calculated the stretching factors of the upper crust and the whole crust in the Huizhou sag. The results show the values are 1.10–1.13 and 1.08–1.31, respectively, indicating faulting in Huizhou sag is relatively small. It is noteworthy that the faults map reveals en echelon distribution at the north and south margins of the basin. We suggest en echelon faults here are caused by the subduction of Proto-South China Sea toward NW Borneo block and cease of the South China Sea. Considering the pronounced unconformities, subsidence rates, fault activities and sediment thickness, the Cenozoic tectonic evolution of the basin can be divided into rifting (49–32 Ma), post-rifted (32–15.5 Ma) and rapid subsidence (15.5–0 Ma) stages. Our study will shed new light on the tectonics of SE Asia and petroleum exploration in the South China Sea.

Keywords

South China Sea / Pearl River Mouth Basin / basement subsidence / en echelon faults

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Boubacar Hamidou Leyla, Jianye Ren, Jing Zhang, Chao Lei. En Echelon Faults and Basin Structure in Huizhou Sag, South China Sea: Implications for the Tectonics of the SE Asia. Journal of Earth Science, 2015, 26(5): 690‒699 https://doi.org/10.1007/s12583-015-0588-x

References

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Barckhausen U., Roeser H. A. Seafloor Spreading Anomalies in the South China Sea Revisited. Continent-Ocean Interactions within East Asian Marginal Seas. American Geophysical Union, 2004, 140: 121-125.
Briais A., Patriat P., Tapponnier P. Updated Interpretation of Magnetic Anomalies and Seafloor Spreading Stages in the South China Sea: Implications for the Tertiary Tectonics of Southeast Asia. Journal of Geophysical Research: Solid Earth (1978–2012), 1993, 98(B4): 6299-6328.
CrossRef Google scholar
Chen J., Xu S., Sang J. The Depositional Characteristics and Oil Potential of Paleo Pearl River Delta Systems in the Pearl River Mouth Basin, South China Sea. Tectonophysics, 1994, 235(1): 1-11.
CrossRef Google scholar
Clift P., Lee G. H. A., Duc N., . Seismic Reflection Evidence for a Dangerous Grounds Miniplate: No Extrusion Origin for the South China Sea. Tectonics, 2008, 27(3): 1-16.
CrossRef Google scholar
Cullen A. B. Transverse Segmentation of the Baram-Balabac Basin, NW Borneo: Refining the Model of Borneo’s Tectonic Evolution. Petroleum Geoscience, 2010, 16(1): 3-29.
CrossRef Google scholar
Davis M., Kusznir N.J. Karner G. D. Depth-Dependent Lithospheric Stretching at Rifted Continental Margins. Proceedings of NSF Rifted Margins Theoretical Institute, 2004, 92-136.
Fyhn M. B., Nielsen L. H., Boldreel L. O., . Geological Evolution, Regional Perspectives and Hydrocarbon Potential of the Northwest Phu Khanh Basin, Offshore Central Vietnam. Marine and Petroleum Geology, 2009, 26(1): 1-24.
CrossRef Google scholar
Gong Z. S., Li S., Xie T., . Continental Margin Basin Analysis and Hydrocarbon Accumulation of the Northern South China Sea. China Science Press, Beijing, 1997, 510.
Guntoro A. The Formation of the Makassar Strait and the Separation between SE Kalimantan and SW Sulawesi. Journal of Asian Earth Sciences, 1999, 17(1): 79-98.
CrossRef Google scholar
Guo L. Z., Zhong Z. H., Wang L. S., . Regional Tectonic Evolution around Yinggehai Basin of South China Sea. Geological Journal of China Universities, 2001, 7(1): 1-12.
Hall R. Cenozoic Plate Tectonic Reconstructions of SE Asia. Geological Society, London, Special Publications, 1997, 126(1): 11-23.
CrossRef Google scholar
Hall R. Cenozoic Geological and Plate Tectonic Evolution of SE Asia and the SW Pacific: Computer-Based Reconstructions, Model and Animations. Journal of Asian Earth Sciences, 2002, 20(4): 353-431.
CrossRef Google scholar
Hall R. v., Hattum M. W., Spakman W. Impact of India–Asia Collision on SE Asia: the Record in Borneo. Tectonophysics, 2008, 451(1): 366-389.
CrossRef Google scholar
Hall R. Hydrocarbon Basins in SE Asia: Understanding Why They Are There. Petroleum Geoscience, 2009, 15(2): 131-146.
CrossRef Google scholar
Hamilton W.B. Tectonics of the Indonesian Region. US Govt. Print. Off., 1979, 345.
Hutchison C. S. Marginal Basin Evolution: the Southern South China Sea. Marine and Petroleum Geology, 2004, 21(9): 1129-1148.
CrossRef Google scholar
Jin W. S., Sun D., Wang Z. Deep Crustal Structure and Its Evolution of South China, 1997 Beijing: Geological Publishing House
Kusznir N., Karner G. Continental Lithospheric Thinning and Breakup in Response to Upwelling Divergent Mantle Flow: Application to the Woodlark, Newfoundland and Iberia Margins. Geological Society, London, Special Publications, 2007, 282(1): 389-419.
CrossRef Google scholar
Kusznir, N. J., Egan, S., 1989. Simple-Shear and Pure-Shear Models of Extensional Sedimentary Basin Formation: Application to the Jeanne d’Arc Basin, Grand Banks of Newfoundland: Chapter 20: North American Margins
Liu T., He S. Deepwater Hydrocarbon Potential along the North Continental Margin, the South China Sea. China Offshore Oil and Gas (Geology), 2001, 15(3): 164-170.
Longley I. M. The Tectonostratigraphic Evolution of SE Asia. Geological Society, London, Special Publications, 1997, 126(1): 311-339.
CrossRef Google scholar
Mat-Zin I., Swarbrick R. The Tectonic Evolution and Associated Sedimentation History of Sarawak Basin, Eastern Malaysia: A Guide for Future Hydrocarbon Exploration. Geological Society, London, Special Publications, 1997, 126(1): 237-245.
CrossRef Google scholar
Morley C. A Tectonic Model for the Tertiary Evolution of Strike–Slip Faults and Rift Basins in SE Asia. Tectonophysics, 2002, 347(4): 189-215.
CrossRef Google scholar
Murphy R. SE Asia Reconstruction with a Non-Rotating Borneo. Geological Society of Malaysia Bulletin, 1998, 42: 85-94.
Patriat P. Reconstitution de l’Évolution du Système de Dorsales de l’Océan Indien par les Méthodes de la Cinématique des Plaques. Territoires des Terres Australes et Antarctiques Françaises, 1987
Pang X., Chen C., Wu M., . The Pearl River Deep-Water Fan Systems and Significant Geological Events. Advances in Earth Science, 2006, 21(8): 793-799.
Pang X., Chen C. M., Shi H. S., . Response between Relative Sea-Level Change and the Pearl River Deep-Water Fan System in the South China Sea. Earth Science Frontiers, 2005, 12(3): 167-177.
Peng D., Pang X., Chen C. From Shallow-water Shelf to Deep–Water Slope–the Study on Deep–Water Fan Systems in South China Sea. Acta Sedimentologica Sinica, 2005, 23(1): 1-11.
Pigott J. D., Ru K. Basin Superposition on the Northern Margin of the South China Sea. Tectonophysics, 1994, 235(1): 27-50.
CrossRef Google scholar
Pinglu L., Chuntao R. Tectonic Characteristics and Evolution History of the Pearl River Mouth Basin. Tectonophysics, 1994, 235(1): 13-25.
CrossRef Google scholar
Rangin C., Klein M., Roques D., . The Red River Fault System in the Tonkin Gulf, Vietnam. Tectonophysics, 1995, 243(3): 209-222.
CrossRef Google scholar
Ren J. Y., Lei C., Wang S., . Tectonic Stratigraphic Framework of the Yinggehai–Qiongdongnan Basins and Its Implication for Tectonics Province Division in South China Sea. Chinese Journal of Geophysics, 2011, 54(6): 1124-1137.
CrossRef Google scholar
Replumaz A., Tapponnier P. Reconstruction of the Deformed Collision Zone between India and Asia by Backward Motion of Lithospheric Blocks. Journal of Geophysical Research: Solid Earth (1978–2012), 2003, 108 B6 2285
CrossRef Google scholar
Ru K., Pigott J. D. Episodic Rfting and Sbsidence in the South China Sea. AAPG Bulletin, 1986, 70(9): 1136-1155.
Satyana A. H., Nugroho D., Surantoko I. Tectonic Controls on the Hydrocarbon Habitats of the Barito, Kutei, and Tarakan Basins, Eastern Kalimantan, Indonesia: Major Dissimilarities in Adjoining Basins. Journal of Asian Earth Sciences, 1999, 17(1): 99-122.
CrossRef Google scholar
Sclater J. G., Christie P. Continental Stretching: An Explanation of the Post-Mid-Cretaceous Subsidence of the Central North Sea Basin. Journal of Geophysical Research: Solid Earth, 1980, 85(B7): 3711-3739.
CrossRef Google scholar
Sun Z., Pang X., Zhong Z. Dynamics of Tertiary Tectonic Evolution of the Baiyun Sag in the Pearl River Mouth Basin. Earth Science Frontiers, 2005, 12 4 489.
Sun Z., Zhou D., Sun L., . Dynamic Analysis on Rifting Stage of Pearl River Mouth Basin through Analogue Modeling. Journal of Earth Science, 2010, 21: 439-454.
CrossRef Google scholar
Sun Z., Zhong Z., Keep M., . 3D Analogue Modeling of the South China Sea: A Discussion on Breakup Pattern. Journal of Asian Earth Sciences, 2009, 34(4): 544-556.
CrossRef Google scholar
Taylor B., Hayes D. E. The Tectonic Evolution of the South China Basin. The Tectonic and Geologic Evolution of Southeast Asian Seas and Islands, 1980, 89-104.
CrossRef Google scholar
Taylor B., Hayes D. E. Origin and History of the South China Sea Basin. Geophysical Monographs Series, 1983, 27: 23-56.
Wang C., Sun Y. Development of Paleogene Depressions and Deposition of Lacustrine Source Rocks in the Pearl River Mouth Basin, Northern Margin of the South China Sea. AAPG bulletin, 1994, 78(11): 1711-1728.
Zhang C., Li S., Yang J., . Petroleum Migration and Mixing in the Pearl River Mouth Basin, South China Sea. Marine and Petroleum Geology, 2004, 21(2): 215-224.
CrossRef Google scholar
Zhou D., Ru K., Chen H. Kinematics of Cenozoic Extension on the South China Sea Continental Margin and Its Implications for the Tectonic Evolution of the Region. Tectonophysics, 1995, 251(1): 161-177.
CrossRef Google scholar
Zhu W., Lei C. Refining the Model of South China Sea’s Tectonic Evolution: Evidence from Yinggehai-Song Hong and Qiongdongnan Basins. Marine Geophysical Research, 2013, 34(3–4): 325-33.
CrossRef Google scholar

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