Petroleum Exploration and Development >
Tectonic paleogeography of Late Sinian and its significances for petroleum exploration in the middle-upper Yangtze region, South China
Received date: 2019-10-23
Revised date: 2020-09-07
Online published: 2020-10-21
Supported by
China National Science and Technology Major Project(2016ZX05004-001)
The paleotectonic pattern, lithofacies paleogeographic features, sedimentary evolution and its controlling effects on hydrocarbon accumulation assemblages during the depositional period of the Sinian Dengying Formation in middle-upper Yangtze region were investigated based on outcrops, drilling, log and seismic data. The study shows that, (1) Affected by the breakup of the Rodinia supercontinent, the middle and upper Yangtze areas were in extensional tectonic environment during the depositional period of Dengying Formation. The carbonate platform was structurally differentiated. Intra-platform depressions controlled by syndepositional faults developed, forming a tectonic-paleogeographic pattern of “three platforms with two depressions”. (2) During the depositional period of the first and second members of the Dengying Formation, rimmed platforms and intra-platform fault depressions developed in upper Yangtze area and isolated platform developed in middle Yangtze area, and there was the Xuanhan-Kaijiang ancient land block in eastern Sichuan. The depositional period of the third member of the Dengying Formation is the transformation period of tectonic-paleogeographic pattern, when a set of shallow water shelf sediment rich in mud was deposited due to transgression on the background of the eroded terrain formed in EpisodeⅠof Tongwan Movement. The sediment of the fourth member of the Dengying Formation inherited the paleogeographic pattern of the first and second members of the Dengying Formation in general, but the Deyang-Anyue intra-platform fault depression further expanded, and the middle Yangtze platform evolved into two separated platforms. (3) Tectonic-sedimentary differentiation and evolution of carbonate platform in the Sinian gave rise to two types of accumulation assemblages with wide distribution and great exploration potential, which are platform margin and intra-platform.
Zecheng WANG , Hua JIANG , Zhiyong CHEN , Jingjiang LIU , Kui MA , Wenzheng LI , Wuren XIE , Qingchun JIANG , Xiufen ZHAI , Shuyuan SHI , Qi LI . Tectonic paleogeography of Late Sinian and its significances for petroleum exploration in the middle-upper Yangtze region, South China[J]. Petroleum Exploration and Development, 2020 , 47(5) : 946 -961 . DOI: 10.1016/S1876-3804(20)60108-2
| [1] | DU Jinhu, WANG Zecheng, ZOU Caineng, et al. Geological theory and the exploration practice of the old large carbonate gas field. Beijing: Petroleum Industry Press, 2015. |
| [2] | ZOU Caineng, DU Jinhu, XU Chunchun, et al. Formation, distribution, resource potential and discovery of the Sinian- Cambrian giant gas field, Sichuan Basin, SW China. Petroleum Exploration and Development, 2014,41(3):278-293. |
| [3] | ZHAI Gangyi. Reservoir accumulation model at the edge of palaeohigh and significant discovery of shale gas in Yichang Area, Hubei Province. Acta Geoscientica Sinica, 2017,38(4):441-447. |
| [4] | DU Jinhu, WANG Zecheng, ZOU Caineng, et al. Discovery of intra-cratonic rift in the Upper Yangtze and its control effect on the formation of Anyue giant gas field. Acta Petrolei Sinica, 2016,37(1):1-16. |
| [5] | LIU Shugen, SUN Wei, LUO Zhili, et al. Xingkai taphrogenesis and petroleum exploration from upper Sinian to Cambrian strata in Sichuan Basin, China. Journal of Chengdu University of Technology (Science &Technology Edition), 2013,40(5):511-519. |
| [6] | LI Zhongquan, LAI Fang, LI Ying, et al. Formation and evolution of Weiyuan-Anyue extension-erosion groove in Sinian system, Sichuan Basin. Petroleum Exploration and Development, 2015,42(1):26-34. |
| [7] | WANG Zecheng, LIU Jingjiang, JIANG Hua, et al. Sedimentary paleogeographic characteristics and exploration significance of Sinian Doushantuo period in the middle-upper Yangtze region, Sichuan Basin, SW China. Petroleum Exploration and Development, 2019,46(1):39-51. |
| [8] | ZHANG Guowei, GUO Anlin, WANG Yuejun, et al. Tectonics of South China continent and its implications. SCIENCE CHINA Earth Sciences, 2013,56(11):1804-1828. |
| [9] | WANG Jian. Sedimentary evolution of Neoproterozoic rift basin in Southern China: Discussion on the relationship with Rodinia breakup. Beijing: Geological Publishing House, 2000. |
| [10] | WANG Zhengjiang, WANG Jian, JIANG Xinsheng, et al. New progress for the stratigraphic division and correlation of Neoproterozoic in Yangtze Block, South China. Geological Review, 2015,61(1):1-22. |
| [11] | Editorial Board of “China Stratigraphic Table” of National Stratigraphic Committee. China stratigraphic table(2014). Beijing: Geological Press, 2014: 1-33. |
| [12] | LIU Jingjiang, LI Wei, ZHANG Baomin, et al. Sedimentary paleogeography of Sinian in upper Yangtze Region. Journal of Paleogeography, 2015,17(1):735-753. |
| [13] | DENG Shenghui, FAN Ru, LI Xin, et al. Division and correlation of Sinian(Ediacara) in Sichuan Basin and its periphery. Journal of Stratigraphy, 2015,39(3):239-254. |
| [14] | MEI Mingxiang, ZHOU Peng, ZHANG Hai, et al. Sequence stratigraphic framework and its palaeogeographical background for the Sinian of Upper Yangtze Region. Journal of Paleogeography, 2006,8(2):219-231. |
| [15] | WANG Zecheng, ZHAO Wenzhi, HU Suyun, et al. Control of tectonic differentiation on the formation of large oil and gas fields in craton basins: A case study of Sinian-Triassic of the Sichuan Basin. Natural Gas Industry, 2017,37(1):9-23. |
| [16] | CHEN Xiaohong, WANG Xiaofeng, MAO Xiaodong. Sequence stratigraphy and depositional environments of the late Sinian-Early Cambrian black rock series in Western Hunan and its origins. Acta Geoscientica Sinica, 1999,20(1):87-95. |
| [17] | GU Zhidong, YIN Jifeng, JIANG Hua, et al. Discovery of Xuanhan-Kaijiang paleouplift and its significance in the Sichuan Basin, SW China. Petroleum Exploration and Development, 2016,43(6):893-904. |
| [18] | YANG Yanjun, WEI Xushou, CHEN Wenbin, et al. The investigation of upper Precambrian system of Yangjiaping section in Shimen county, Hunan province. Hunan Geology, 1984,3(4):1-107. |
| [19] | GUO Chengxian, HU Mingyi. Sedimentary diagenesis of the upper Sinian in the margin of the middle Yangtze Platform. Beijing: Geological Press, 1999. |
| [20] | LI Zhongxiong, LU Yongchao. Sedimentary characteristics and lithofacies palaeogeography of the Late Sinian and Early Cambrian in middle Yangtze region. Journal of Palaeogeography, 2004,6(2):154-159. |
| [21] | ZHOU Yan, CHEN Hongde, WANG Chengshan, et al. Study on sequence stratigraphy in Upper Sinian Series in mid- Yangtze area. Journal of Chengdu University of Technology (Science &Technology Edition), 2004,31(1):50-58. |
| [22] | YI Haisheng, ZENG Yunfu, XIA Wenjie. Ultramicrofabrics and genesis of upper Sinian chert on the southeast continental margin of the Yangtze Platform. Acta Geologica Sinica, 1994,68(2):132-141. |
| [23] | WANG Zecheng, JIANG Hua, WANG Tongshan, et al. Paleo-geomorphology formed during Tongwan tectonization in Sichuan Basin and its significance for hydrocarbon accumulation. Petroleum Exploration and Development, 2014,41(3):305-312. |
| [24] | ZHAO Wenzhi, WANG Zecheng, JIANG Hua, et al. Exploration status of the deep Sinian strata in the Sichuan Basin: Formation conditions of old giant carbonate oil/gas fields. Natural Gas Industry, 2020,40(2):1-10. |
| [25] | SHAN Xiuqin, ZHAGN Jing, ZHANG Baomin, et al. Dolomite karst reservoir characteristics and dissolution evidences of Sinian Dengying Formation, Sichuan Basin. Acta Petrolei Sinica, 2016,37(1):17-29. |
| [26] | LUO Bing, YANG Yueming, LUO Wenjun, et al. Controlling factors and distribution of reservoir development in Dengying Formation of paleo-uplift in central Sichuan Basin. Acta Petrolei Sinica, 2015,36(4):416-426. |
| [27] | YAO Genshun, HAO Yi, ZHOU Jin’gao, et al. Formation and evolution of reservoir spaces in the Sinian Dengying Fm of the Sichuan Basin. Natural Gas Industry, 2014,34(3):31-37. |
/
| 〈 |
|
〉 |