1.中国科学院深海科学与工程研究所 / 地球物理与资源实验室,海南 三亚 572000
2.南方海洋科学与工程广东省实验室(珠海),广东 珠海 519082
3.中国地质调查局广州海洋地质调查局 / 自然资源部海底矿产资源重点实验室,广东 广州 510075
吴时国(1963年生),男;研究方向:海底构造、深水油气和天然气水合物;E-mail:swu@idsse.ac.cn
纸质出版日期:2022-01-25,
网络出版日期:2021-09-23,
收稿日期:2021-07-05,
录用日期:2021-07-31
扫 描 看 全 文
吴时国,鲁向阳,孙中宇等.南海南部深水盆地构造与储层再认识[J].中山大学学报(自然科学版),2022,61(01):63-73.
WU Shiguo,LU Xiangyang,SUN Zhongyu,et al.Review on the tectonic and reservoir of the deepwater basin in the southern South China Sea margin[J].Acta Scientiarum Naturalium Universitatis Sunyatseni,2022,61(01):63-73.
吴时国,鲁向阳,孙中宇等.南海南部深水盆地构造与储层再认识[J].中山大学学报(自然科学版),2022,61(01):63-73. DOI: 10.13471/j.cnki.acta.snus.2021D046.
WU Shiguo,LU Xiangyang,SUN Zhongyu,et al.Review on the tectonic and reservoir of the deepwater basin in the southern South China Sea margin[J].Acta Scientiarum Naturalium Universitatis Sunyatseni,2022,61(01):63-73. DOI: 10.13471/j.cnki.acta.snus.2021D046.
基于近年来获得的探测新资料和已发表地球物理大剖面,重新厘定了南海南部大陆边缘深水油气盆地构造区划与油气系统。考虑南海张裂边缘近端和远端裂陷盆地的构造差异,我们认为远端陆缘深水盆地大多以NE-SW向张裂构造为特征,据此厘定了NE向张裂盆地构造,包括南安、曾母和礼乐等深水盆地。从油气储层系统来看,南沙海区存在着特色深水油气系统成藏模式,包括孤立碳酸盐台地、深水陆源碎屑沉积体系及陆架边缘三角洲的油气成藏模式;位于南海和古南海盆地之间的南沙地块,在古近纪就进入深水,远离陆地,深水陆源碎屑沉积体系相对不发育,相反,发育了一套巨厚的碳酸盐层序,可望形成独具特色的深水油气系统。南沙海区的这类潜在深水油气系统在南海北部未曾遇见,特别是古近纪陆源碎屑沉积体系和孤立碳酸盐台地油气系统的共生规律,必将丰富南海深水油气成藏理论,拓展油气勘探的新领域。
Based on newly acquired seismic data and previous published seismic data, we defined tectonic division and petroleum reservoirs of distal rifting basins in the southern South China Sea (SCS). Considering the differences between proximal and distal rifting basins, we propose that distal rifting basins, including Nanan, Zengmu, and Liyue basins, are mainly controlled by a extensional fault system of NE-SW striking. The hydrocarbon system in this region includes an isolated carbonate platform, deep-water turbidity systems, and shelf-margin delta systems. The distal rifting basin locating between the central basin of the South China Sea (SCS) and Paleo-SCS has been far away from continent and in deep-water as early as Eocene, where sediments are composed of a massive set of carbonates accompanying by deep-water terrigenous debris depositions. The hydrocarbon system in the southern SCS, especially a combination of shelf-margin delta deposition with the isolated carbonate-platform system, is different from that in the northern SCS. The results enrich petroleum theory and would help to identify new exploration targets.
南海远端裂陷盆地构造区划油气系统储层
South China Seadistal rifting basintectonic divisionpetroleum systemreservoir
李家彪. 南海大陆边缘动力学:科学实验与研究进展[J].地球物理学报,2011,54(12): 2993-3003.
丘学林,赵明辉,敖威,等. 南海西南次海盆与南沙地块的OBS 探测和地壳结构[J]. 地球物理学报,2011,54(12): 3117-3128.
FRANKE D, BARCKHAUSEN U, BARISTEAS N, et al. The continent-ocean transition at the southeastern margin of the South China Sea[J]. Mar Petrol Geol, 2011, 28:11987-1204.
FRANKE D. Rifting lithosphere breakup and volcanism: comparison of magma-poor margin and volcanic rifted margins[J]. Mar Petrol Geol, 2013, 43:63-87.
MORLEY C K, BACK S, van RENSBERGEN P, et al. Characteristics of repeated, detached, Miocene-Pliocene tectonic inversion events, in a large delta province on an active margin, Brunei Darussalam, Borneo[J]. Journal of Structural Geology, 2003, 25(7): 1147-1169.
王利杰,孙珍,姚永坚,等.南海东南部陆缘Nido灰岩发育特征及其构造控制因素[J].地球科学, 2021, 46(3):956-974.
PUBELLIER M, MORLEY C K. The basins of Sundaland (SE Asia): Evolution and boundary conditions[J]. Marine and Petroleum Geology, 2014,58(part B): 555-578 .
HAYES D E, NISSEN S S. The South China Sea margins: implication for rifting margin contrast. Earth Planet[J]. Sci Letters, 2005, 237: 601-616.
McINTOSH K, van AVENDONK H, LAVIER L, et al. Inversion of a hyper-extended rifted margin in the southern Central Range of Taiwan[J]. Geology, 2013, 41: 871-874.
CULLEN A, REEMST P, HENSTRA G, et al. Rifting of the South China Sea: new perspectives[J]. Petroleum Geosci, 2010, 16: 273-282.
SAVVA D, MERESSE F, PUBELLIER M, et al. Seismic evidence of hyper stretched crust and mantle exhumation offshore Vietnam[J]. Tectonophysics, 2013, 608:72-83.
SIBUET J C, YEH Y C, LEE C S. Geodynamics of the South China Sea[J]. Tectonophysics, 2016, 692(Part B):98-119.
SUN Z, LARSEN H, LI C, et al. Testing hypothesis for lithosphere thinning during continental breakup drilling at South China Sea margin[R].IODP Proposal, 2016:878.
WU S, ZHANG X, YANG Z, et al. Spatial and temporal evolution of Cenozoic carbonate platforms in the continental margin of South China Sea: Response to opening of the ocean basin[J]. Interpretation, 2016, 4(3): 1-119.
ZAMPETTI V, SCHLAGER W, KONIJNENBURG J H, et al. 18-Architecture and growth history of a Miocene carbonate platform from 3D seismic refection data: Luconia province, offshore Sarawak, Malaysia[M]// ROBERTS D G, et al, eds. Regional geology and tectonics: Principles of geologic analysis. Amsterdam: Elsevier, 2012: 512-537.
FOURNIER F, MONTAGGIONI L, BORGOMANO J. Paleoenvironments and high-frequency cyclicity from Cenozoic South-East Asian shallow-water carbonates: a case study from the Oligo-Miocene buildups of Malampaya (Offshore Palawan, Philippines) [J]. Marine and Petroleum Geology, 2004, 21(1): 1-21.
VAHRENKAMP V C, DAVID F, DUIJNDAM P, et al. Growth architecture, faulting, and karstification of a middle miocene carbonate platform, Luconia Province, offshore Sarawak, Malaysia[J]. AAPG Memoir, 2005(81): 329-350.
BANERJEE A, SALIM A M A. Stratigraphic evolution of deep-water Dangerous Grounds in the South China Sea, NW Sabah Platform Region, Malaysia[J]. Journal of Petroleum Science and Engineering, 2021, 201:108434.
张功成,米立军,吴时国,等. 深水区-南海北部大陆边缘盆地油气勘探新领域[J]. 石油学报,2007, 28(2): 15-21.
朱伟林,张功成,钟锴,等. 中国南海油气资源前景[J].中国工程科学, 2010,12(5): 46-50.
DONG M, WU S G, ZHANG J. Thinned crustal structure and tectonic boundary of the Nansha Block, southern South China Sea[J]. Mar Geophys Res, 2016, 37: 281-296.
姚伯初,刘振湖. 南沙海域沉积盆地与油气资源分布[J].中国海上油气,2006,189(3):150-160.
GAO J, WU S, McINTOSH K, et al. Crustal structure and extension mode in the northwestern margin of the South China Sea[J]. Geochemistry, Geophysics, Geosystems, 2016, 17:2143-2167.
YAN P, ZHOU D, LIU Z S. A crustal structure profile across the northern continental margin of the South China Sea[J]. Tectonophysics, 2001, 338(1):1-21.
SAVVA D, PUBELLIER M, FRANKE D, et al. Different expressions of rifting the South China Sea margins[J]. Marine and Petroleum Geology, 2014, 58(part B): 579-598.
DING W W, LI J B, CLIFT P D. Spreading dynamics and sedimentary process of the Southwest Sub-basin, South China Sea: Constraints from multi-channel seismic data and IODP Expedition 349[J]. Journal of Asian Earth Sciences, 2016(115):97-113.
吴振利,李家彪,阮爱国,等.南海西北次海盆地壳结构:海底广角地震实验结果[J].中国科学(地球科学), 2011, 41(10):1463-1476.
QIU X L, YE S Y, WU S M, et al. Crustal structure across the Xisha trough, northwest South China Sea[J]. Tectonophysics, 2001, 341: 179-193.
ZHU J J, SUN Z X, KOPP H, et al. Segmentation of the Manila subduction system from migrated multichannel seismics and wedge taper analysis[J]. Mar Geophys Res, 2013, 34: 379-391.
姚伯初,万玲,吴能友. 南海新生代构造演化及岩石圈三维结构[J]. 地质通报,2005,24(1):1-8.
孙珍,赵忠贤,李家彪,等. 南沙地块内破裂不整合与碰撞不整合的构造分析[J].地球物理学报,2011,54(12): 3196-3209.
刘海龄, 阎贫,张伯友, 等.南海前新生代基底与东特提斯构造域[J].海洋地质与第四纪地质,2004,24(1):15-28.
YAO Y J, LIU H L, YANG C P, et al. Characteristics and evolution of Cenozoic sediments in the Liyue Basin, South China Sea[J]. Journal of Asian Earth Sciences, 2012, 60:114-129.
HUTCHISON C S. Marginal basin evolution: the southern South China Sea[J]. Marine & Petroleum Geology, 2004, 21: 1129-1148.
STEUER S, FRANKE D, MERESSE F, et al. Time constraints on the evolution of southern Palawan Island, Philippines from onshore and offshore correlation of Miocene limestones[J]. Journal of Asian Earth Sciences, 2013, 76:412-427.
姚永坚,吕彩丽,王利杰,等.南沙海区万安盆地构造演化与成因机制[J].海洋学报, 2018, 40(5):62-74.
ZHANG G C, TANG W, XIE X J, et al. Petroleum geological characteristics of two basin belts in southern continental margin in South China Sea[J]. Petroleum Exploration and Development,2017,44(6):899-910.
吴进民.南海西南部人字形走滑断裂体系和曾母盆地的旋转构造[J].南海地质研究,1997, 9:54-66.
HAQ B U, HARDENBOL J, VAIL P R. Mesozoic and Cenozoic chronostratigraphy and cycles of sea-level change[M]// WILGUS C K,et al,eds. Sea-Level Changes: An Integrated Approach.Tulsa: SEPM, 1988: 7-108.
BEGLINGER S, DOUST H, CLOETINGH S. Relating petroleum system and play development to basin evolution: West African South Atlantic Basin[J]. Marine & Petroleum Geology, 2012, 30: 1-25.
WEIMER P, SLATT R. Introduction to the petroleum geology of deepwater settings[M]. Tulsa: American Association of Petroleum of Geologists, 2006: 419.
OWEN N A, SCHOFIELD C H. Disputed South China Sea hydrocarbon in perspective[J]. Marine Policy, 2012, 36: 809-822.
ZHANG L, LI W C, ZENG X H. Stratigraphic occurrence and its relationship with oil and gas in Liyue Basin[J]. Experimental Petroleum Research, 2003, 25 (5):469-573.
张亚震,李俊良,裴健翔,等. 礼乐盆地深水区新生代生物礁的发育条件与地震特征[J]. 海洋地质与第四纪地质,2018,38(1):108-117.
GRÖTSCH J, MERCADIER C. Integrated 3D reservoir modeling based on 3D seismic: The Tertiary Malampaya and Camago buildups, off shore Palawan, Philippines[J]. AAPG Bulletin, 1999, 83:1703-1727.
ALI M Y, ABOLINS P. The petroleum geology and resources of Malaysia[M]. London: Geological Society Publishing House, 1999: 369-392.
ABDUL M M, ROBERT H.F. WONG. Seismic sequence stratigraphy of Tertiary sediment, offshore Sarawak deepwater area, Malaysia[J]. Bulletin of Geological Society of Malaysia, 1995, 37: 3345-3361.
郭秀荣, 武强, 邱燕, 等.南海南部曾母盆地陆缘三角洲沉积特征[J]. 海洋地质与第四纪地质,2006,26(4):1-5.
0
浏览量
1
下载量
1
CSCD
关联资源
相关文章
相关作者
相关机构