Cambrian lithofacies paleogeographic characteristics of the Upper Yangtze Block: implications for the marine basin evolution and hydrocarbon accumulation of small-scale tectonic blocks in China
-
摘要: 岩相古地理重建对认识盆地的沉积环境演化、沉积建造时空分布和油气勘探具有重要意义。为揭示上扬子地区寒武纪古地理背景这一先决条件对新发现的安岳巨型气田的控制作用及其对碳酸盐岩油气勘探的启示,本文综合油气勘探的地震、钻井资料及盆地周缘的露头剖面地质调查成果,重建了寒武纪两个构造层序的岩相古地理,分析了寒武系生储盖组合发育的特征。结果表明:早寒武世早期,伸展背景形成了破碎型克拉通盆地,近南北向的深水槽切割了上扬子克拉通,充填了丰富的富有机质沉积物,成为深层巨型生烃灶;早寒武世晚期—晚寒武世,上扬子板块转变为准稳定的构造背景,盆地性质转换为陆表海型克拉通坳陷盆地,沉积建造以发育潮坪楔及伴生的膏盐为特征,陆表海潮汐作用和古隆起控制了储层宏观分布;构造活跃期的裂陷沉积之上叠加以准稳定期的克拉通内坳陷沉积,形成了类似裂陷盆地的由裂谷层序和后裂谷层序组成的剖面形态像牛头的牛头型沉积建造结构;与大板块若即若离的亲缘过程中,构造活跃期和构造准稳定期交替叠合的盆地古地理特点是我国前晚三叠世小陆块离散演化阶段的一大特色,在沉积建造上形成良好的生-储-盖空间配置,是克拉通油气勘探的两大重要领域。Abstract: The reconstruction of litho-paleogeography plays an important role in understanding the evolution of sedimentary environment, spatial distribution of sedimentary formations and hydrocarbon exploration of basins. In order to reveal the Cambrian paleogeographic setting which is the controlling precondition of the newly discovered Anyue giant gas field in the Upper Yangtze Block and its significances to potential carbonate oil and gas exploration, based on the seismic and borehole-logging data and the geological survey of outcrop section surrounding the Sichuan Basin, the lithofacies and paleogeography of the two Cambrian tectonic sequences were reconstructed, and the characteristics of Cambrian source-reservoir-seal assemblage were analyzed. The results showed that, in the earlier Eearly Cambrian, the tectonic extensional background induced a broken craton basin which had a deep trough cutting the Upper Yangtze Block with north-south direction.The infill of organic-rich sediments in the trough became the kitchen of deep giant hydrocarbonlayers. From the later Early Cambrian to the late Cambrian, the upper Yangtze plate shifted to a relatively stable tectonic setting, and the basins on the Upper Yangtze Block were unified and formed a craton depression basin. The sedimentary formation was characterized by the development of the epeiric tidal wedge and associated salt. The tidal energy in the epeiric sea constrained the macroscopic distribution of the reservoirs. The deposits filling in tectonic active stages were superimposed by infill of the relatively stable intracraton depressions, forming a sequence combination similar to the rift basin which is composed of rift and post-rift sequences. The transection-profile of this type of sequence combination is like a cartoon of the ox-head. The paleogeographic characteristics of the basin, which experienced tectonic active interval and tectonic stability interval alternately, was a major feature of Chinese small-scale blocks linked to their affinity with the big-scale plates and drifting discretely in paleo-oceans in the pre-Late Triassic period. This special was favor for forming potential source-reservoir-seal assemblages in the sedimentary formation which can develop giant hydrocarbon reservoir in intracratonic basins.
-
Key words:
- Paleogeographic reconstruction /
- Carbonate /
- Deep nature gas /
- Cambrian /
- Upper Yangtze Block
-
-
[1] 张国伟, 郭安林, 王岳军, 等.中国华南大陆构造与问题[J].中国科学:地球科学,2013,43(10):1553-1582.
[2] 舒良树.华南构造演化的基本特征[J].地质通报, 2012,31(7), 1035-1053.
[3] 郭润华, 李三忠, 索艳慧, 等.华北地块楔入大华南地块和印支期弯山构造[J].地学前缘,2017, 24(4), 171-184.
[4] 刘树根, 孙玮, 罗志立, 等. 兴凯地裂运动与四川盆地下组合油气勘探[J].成都理工大学学报(自然科学版),2013, 40(5), 511-520.
[5] Du JH, Zou C, Xu CC, et al. Theoretical and technical innovations in strategic discovery of a giant gas field in cambrian longwangmiao formation of central sichuan paleo-uplift, sichuan basin[J]. Petroleum Exploration & Development, 2014.41(3):294-305.
[6] Wei G, Yang W, Du JH, et al. Tectonic features of Gaoshiti-Moxi paleo-uplift and its controls on the formation of a giant gas field, Sichuan Basin, SW China[J]. Petroleum Exploration & Development,2015,42(3):283-292.
[7] Li ZQ., Liu J, Li Y, et al. Formation and evolution of Weiyuan-Anyue tensional corrosion trough in Sinian system, Sichuan Basin[J]. Petroleum Exploration & Development, 2015, 42(1):29-36.
[8] Li SZ, Zhao SJ, Liu X, et al. Closure of the Proto-Tethys Ocean and Early Paleozoic amalgamation of microcontinental blocks in East Asia[J]. Earth Science Review, 2018, 186, 37-75.
[9] 陈洪德, 郭彤楼.中上扬子叠合盆地沉积充填过程与物质分布规律[M]. 北京:科学出版社.2012.
[10] 邹才能, 杜金虎, 徐春春, 等. 四川盆地震旦系-寒武系特大型气田形成分布、资源潜力及勘探发现[J].石油勘探与开发,2014, 41(3), 278-293.
[11] Shi CH, Cao J, Tan XC, et al. Discovery of oil bitumen co-existing with solid bitumen in the Lower Cambrian Longwangmiao giant gas reservoir, Sichuan Basin, southwestern China:Implications for hydrocarbon accumulation process[J]. Organic Geochemistry, 2017, 108:61-81.
[12] Shi CH, Cao J, Tan XC, et al. Hydrocarbon generation capability of Sinian-Lower Cambrian shale, mudstone and carbonate rocks in the Sichuan Basin, southwestern China:Implications for contributions to the giant Sinian Dengying natural gas accumulation[J]. AAPG Bulletin, 2018,102(5):817-853.
[13] 刘宝珺.中国南方岩相古地理图集[M]. 北京:科学出版社,1994.
[14] 侯明才, 邢凤存, 徐胜林, 等.上扬子E-C转换期古地理格局及其地球动力学机制探讨[J]. 沉积学报,2017, 35(5):902-917.
[15] 任纪舜,牛宝贵,刘志刚. 软碰撞、叠覆造山和多旋回缝合作用[J]. 地学前缘,1999, 6(3):85-93.
[16] Rogers J J W, Santosh M. Configuration of Columbia, a Mesoproterozoic Supercontinent[J]. Gondwana Research, 2002, 5(1):5-22.
[17] 陆松年,杨春亮,李怀坤,等.华北古大陆与哥伦比亚超大陆[J].地学前缘, 2002, 9 (9):225-233
[18] Li Z.X., Bogdanova, S.V., Collins, A.S., et al. Assembly, configuration, and break-up history of Rodinia:A synthesis[J]. Precambrian Research, 2008, 179-210.
[19] 万天丰,朱鸿.古生代与三叠纪中国各陆块在全球古大陆再造中的位置与运动学特征.现代地质, 2007,21(1):1-13.
[20] 许效松,刘宝珺,牟传龙,等. 中国中西部海相盆地分析与油气资源[M].北京:地质出版社,2004.
[21] Chen A. Q., Hou M. C., Xiong C. et al. The Crucial Role of Tectono-sedimentary Records of China in Understanding Paleogeographic Evolution[J]. Acta Geologica Sinica, 2019, 93(S3):5-7.
[22] 刘树根, 宋金民, 赵异华, 等. 四川盆地龙王庙组优质储层形成与分布的主控因素[J].成都理工大学学报(自然科学版), 2014, 41(6):657-670.
[23] 马腾, 谭秀成, 李凌, 等.四川盆地早寒武世龙王庙期沉积特征与古地理[J].沉积学报,2016, 34(1), 33-48.
[24] 陈安清, 王立成, 姬广建, 等. 川东北早-中三叠世聚盐环境及海水浓缩成钾模式[J].岩石学报, 2015, 31(9):2757-2769.
[25] 陈安清, 杨帅, 陈洪德, 等. 陆表海台地沉积充填模式及内克拉通碳酸盐岩勘探新启示[J]. 岩石学报, 2017, 33(4):1243-1256.
[26] 陈安清, 侯明才, 陈洪德, 等.中国海相碳酸盐岩勘探领域拓展历程及沉积学的基本驱动作用[J]. 沉积学报, 2017, 35(5):1054-1062.
[27] Chen, A.Q., Xu, S.L., Yang, S., et al. Ordovician deep dolomite reservoirs in the intracratonic Ordos Basin, China:Depositional model and Diagenetic evolution. Energy Exploration & Exploitation, 2018, 36(4):850-871.
-
计量
- 文章访问数: 1632
- PDF下载数: 175
- 施引文献: 0
下载: