Please wait a minute...
石油实验地质  2020, Vol. 42 Issue (2): 215-222    DOI: 10.11781/sysydz202002215
盆地·油藏 本期目录 | 过刊浏览 |
莺歌海盆地新近纪以来古构造地貌恢复
肖坤泽1,2, 童亨茂1,2, 杨东辉1,2,3, 李绪生4, 范彩伟4, 张宏祥1,2, 黄磊1,2
1. 中国石油大学(北京) 油气资源与探测国家重点实验室, 北京 102249;
2. 中国石油大学(北京) 地球科学学院, 北京 102249;
3. 河北省地震局 承德中心台, 河北 承德 067000;
4. 中海石油(中国)有限公司 湛江分公司, 广东 湛江 524057
Restoration of Neogene paleo-geomorphology of Yinggehai Basin
XIAO Kunze1,2, TONG Hengmao1,2, YANG Donghui1,2,3, LI Xusheng4, FAN Caiwei4, ZHANG Hongxiang1,2, HUANG Lei1,2
1. State Key Laboratory of Petroleum Resource and Prospecting, China University of Petroleum(Beijing), Beijing 102249, China;
2. College of Geosciences, China University of Petroleum(Beijing), Beijing 102249, China;
3. Chengde Central Seismic Station, Hebei Earthquake Agency, Chengde, Hebei 067000, China;
4. Zhanjiang Branch, CNOOC, Zhanjiang, Guangdong 524057, China
全文:  PDF(6105 KB)  
输出: BibTeX | EndNote (RIS)      
摘要: 新近系三亚组和梅山组是莺歌海盆地烃源岩发育的重要层系,研究其古构造地貌是预测烃源岩分布和油气资源潜力的基础。应用“构造应力体制保持不变的情况下,盆地内古构造地貌继承性发育”的思想,在确定莺歌海盆地新近纪构造变形应力体制及其演化的基础上,应用“将今论古”和“比例补偿”的思想和方法,分别以盆地现今地貌特征和地层厚度分布为基础资料,并以单井资料确定局部古海水深度作为约束条件,恢复莺歌海盆地新近纪的古构造地貌(古海水深度)。指出莺歌海盆地在三亚组和梅山组沉积时期是半封闭的局限海湾环境,有利于烃源岩的发育;提出古构造地貌研究的新方法——比例补偿法,可应用于其他盆地古构造地貌的恢复。
关键词 应力体制古构造地貌古海水深度比例补偿莺歌海盆地    
Abstract:The Neogene Sanya and Meishan formations are important sequences of source rocks in the Yinggehai Basin. Understanding the paleo-tectonic geomorphology is an important basis for predicting the distribution of source rocks and the potential of oil and gas resources. Based on the rule that "the paleo-tectonic environment develops in the inherited way when tectonic stress system remains unchanged", we applied the idea and method of "the present is the key to the past" and "proportional compensation" to interpret the Neogene tectonic deformation system and its evolution in the Yinggehai Basin. The current geomorphological features and stratigraphic thickness distribution were used with the paleo-sea depth determined from single well data as a constraint to restore the Neogene paleo-geomorphology of the Yinggehai Basin. The Yinggehai Basin was a semi-enclosed confined bay during the deposition of the Sanya and Meishan formations, which was conducive to the development of source rocks. The "proportional compensation" method, which is a new way for paleo-geomorphology restoration, can be applied in other basins.
Key wordsstress system    paleo-tectonic geomorphology    paleo-sea depth    proportional compensation    Yinggehai Basin
收稿日期: 2019-10-24      出版日期: 2020-03-21
ZTFLH:  TE121.2  
基金资助:国家油气重大专项(2016ZX05024-005-004)和国家自然科学基金项目(41272160)联合资助。
通讯作者: 童亨茂(1967-),男,教授,从事盆地构造分析研究和教学工作。E-mail:tonghm@cup.edu.cn。     E-mail: tonghm@cup.edu.cn
作者简介: 肖坤泽(1995-),男,硕士研究生,从事构造地质学研究。E-mail:x_kunze@163.com。
服务
把本文推荐给朋友
加入引用管理器
E-mail Alert
RSS
作者相关文章
肖坤泽
童亨茂
杨东辉
李绪生
范彩伟
张宏祥
黄磊
引用本文:

肖坤泽, 童亨茂, 杨东辉,等 .莺歌海盆地新近纪以来古构造地貌恢复[J].石油实验地质,2020,42(2):215-222.
XIAO Kunze, TONG Hengmao, YANG Donghui,et al .Restoration of Neogene paleo-geomorphology of Yinggehai Basin[J].Petroleum Geology & Experiment,2020,42(2):215-222.

链接本文:

http://www.sysydz.net/CN/10.11781/sysydz202002215      或      http://www.sysydz.net/CN/Y2020/V42/I2/215

[1] 何将启,王彦.莺歌海盆地盆地结构及天然气成藏模式研究[J].石油实验地质,2001,23(4):373-377. HE Jiangqi,WANG Yan.Study on the natural gas accumulation models and structure of the Yinggehai Basin[J].Petroleum Geology & Experiment,2001,23(4):373-377.
[2] 范彩伟.莺-琼盆地高压成因输导体系特征、识别及其成藏过程[J].石油与天然气地质,2018,39(2):254-267. FAN Caiwei.The identification and characteristics of migration system induced by high pressure,and its hydrocarbon accumulation process in the Yingqiong Basin[J].Oil & Gas Geology,2018,39(2):254-267.
[3] 黄保家,肖贤明,董伟良.莺歌海盆地烃源岩特征及天然气生成演化模式[J].天然气工业,2002,22(1):26-30. HUANG Baojia,XIAO Xianming,DONG Weiliang.Characteristics of hydrocarbon source rocks and generation & evolution model of natural gas in Yinggehai Basin[J].Natural Gas Industry,2002,22(1):26-30.
[4] 何家雄,施小斌,阎贫,等.南海北部边缘盆地油气地质特征与勘探方向[J].新疆石油地质,2007,28(2):129-135. HE Jiaxiong,SHI Xiaobin,YAN Pin,et al.Petroleum geology and exploratory targets in marginal basins,northern South China Sea[J].Xinjiang Petroleum Geology,2007,28(2):129-135.
[5] 何卫军,谢金有,刘新宇,等.莺歌海盆地DF1-1-11井有孔虫生物地层与沉积环境研究[J].地层学杂志,2011,35(1):81-87. HE Weijun,XIE Jinyou,LIU Xinyu,et al.Foraminiferal biostrati-graphy and sedimentary environment reconstruction based on paleontological data from bore hole DF1-1-11,Yinggehai Basin[J].Journal of Stratigraphy,2011,35(1):81-87.
[6] 何卫军,张建新,左倩媚,等.微体古生物在高精度层序地层及古环境研究中的应用:以莺-琼盆地为例[J].地层学杂志,2013,37(4):410-416. HE Weijun,ZHANG Jianxin,ZUO Qianmei,et al.The application of micropaleontology in high-resolution sequence stratigraphy and paleoenvironmental reconstruction:a case study of the Yinggehai-Qiongdongnan basin[J].Journal of Stratigraphy,2013,37(4):410-416.
[7] 谢金有,祝幼华,麦文,等.南海北部莺琼盆地钙质超微化石年代地层研究[J].微体古生物学报,2010,27(4):289-298. XIE Jinyou,ZHU Youhua,MAI Wen,et al.Chronostratigraphy of calcareous nannofossils in the Yinggehai-Qiongdongnan Basin,northern South China Sea[J].Acta Micropalaeontologica Sinica,2010,27(4):289-298.
[8] 王随继,黄杏珍,妥进才,等.泌阳凹陷核桃园组微量元素演化特征及其古气候意义[J].沉积学报,1997,15(1):65-70. WANG Suiji,HUANG Xingzhen,TUO Jincai,et al.Evolutional characteristics and their paleoclimate significance of trace elements in the Hetaoyuan Formation,Biyang Depression[J].Acta Sedimentologica Sinica,1997,15(1):65-70.
[9] 许淑梅,吴鹏,张威,等.南海关键地质历史时期的古海岸线变化[J].海洋地质与第四纪地质,2013,33(1):1-10. XU Shumei,WU Peng,ZHANG Wei,et al.Paleo-coastline changes in South China Sea in some critical times[J].Marine Geology & Quaternary Geology,2013,33(1):1-10.
[10] VAIL P R,HARDENBOL J,TODD R G.Jurassic unconfor-mities,chronostratigraphy,and sea-level changes from seismic stratigraphy and biostratigraphy[J].AAPG Special Volumes,1984,36:129-144.
[11] HARRIS P M,FROST S H,SEIGLIE G A,et al.Regional unconformities and depositional cycles,Cretaceous of the Arabian Peninsula[J].AAPG Special Volumes,1984,36:67-80.
[12] 杨平,陈晔,刘泽纯.柴达木盆地自然伽玛曲线在古气候及沉积环境研究中的应用[J].古地理学报,2003,5(1):94-102. YANG Ping,CHEN Ye,LIU Zechun.Application of gamma ray log to study on palaeoclimate and sedimentary environments of the Jurassic in Qaidam Basin[J].Journal of Palaeogeography,2003,5(1):94-102.
[13] 万锦峰,鲜本忠,佘源琦,等.基于伽马能谱测井信息的古水深恢复方法:以塔河油田4区巴楚组为例[J].石油天然气学报,2011,33(6):98-103. WAN Jinfeng,XIAN Benzhong,SHE Yuanqi,et al.Palaeobathymetric reconstruction based on natural gamma ray spectrometry logging data:by taking Bachu Formation in region 4 of Tahe oilfield for example[J].Journal of Oil and Gas Technology,2011,33(6):98-103.
[14] 郭秋麟,倪丙荣.利用化石群分异度探讨古水深[J].石油大学学报(自然科学版),1990,14(2):1-7. GUO Qiulin,NI Bingrong.Determination of palaeodepth with diversity of fossil community[J].Journal of the University of Petroleum,China,1990,14(2):1-7.
[15] VAIL P R,AUDEMART F,BOWMAN S A,et al.The stratigraphic signatures of tectonics,eustasy and sedimentation:an overview[M]//EINSELE G,RICKEN W,SEILACHER A.Cyclic stratigraphy.New York:Springer-Verlag,1991:617-659.
[16] LIN C S,ERIKSSON K,LI S T,et al.Sequence architecture,depositional systems,and controls on development of lacustrine basin fills in part of the Erlian Basin,Northeast China[J].AAPG Bulletin,2001,85(11):2017-2043.
[17] TONY J T.Reservoir characterization,paleoenvironment,and paleo-geomorphology of the Mississippian Redwall limestone paleokarst,Hualapai Indian Reservation,Grand Canyon area,Arizona[J].AAPG Bulletin,2000,84(11):1875.
[18] 辛云路,任建业,李建平.构造-古地貌对沉积的控制作用:以渤海南部莱州湾凹陷沙三段为例[J].石油勘探与开发,2013,40(3):302-308. XIN Yunlu,REN Jianye,LI Jianping.Control of tectonic-paleogeomorphology on deposition:a case from the Shahejie Formation Sha 3 Member,Laizhouwan Sag,southern Bohai Sea[J].Petroleum Exploration and Development,2013,40(3):302-308.
[19] 刘峰,裴健翔,汪洋,等.古地貌对海底扇沉积过程的控制及与油气富集的关系:以莺歌海盆地东方区黄流组一段为例[J].中国海上油气,2015,27(4):37-46. LIU Feng,PEI Jianxiang,WANG Yang,et al.Palaeogeomorphologic control on sedimentary process of submarine fans and hydrocarbon accumulation:a case study of Member 1 of Huangliu Formation in DF area,Yinggehai Basin[J].China Offshore Oil and Gas,2015,27(4):37-46.
[20] 童亨茂,赵宝银,曹哲,等.渤海湾盆地南堡凹陷断裂系统成因的构造解析[J].地质学报,2013,87(11):1647-1661. TONG Hengmao,ZHAO Baoyin,CAO Zhe,et al.Structural analysis of faulting system origin in the Nanpu Sag,Bohai Bay Basin[J].ACTA Geologica Sinica,2013,87(11):1647-1661.
[21] 童亨茂,范彩伟,孟令箭,等.中国东-南部裂陷盆地断裂系统复杂性的表现形式及成因机制:以南堡凹陷和涠西南凹陷为例[J].地质学报,2018,92(9):1753-1765. TONG Hengmao,FAN Caiwei,MENG Lingjian,et al.Manifestation and origin mechanism of the fault system complexity in rift basins in eastern-southern China:case study of the Nanbu and Weixinan sags[J].Acta Geologica Sinica,2018,92(9):1753-1765.
[22] 朱伟林,吴景富,张功成,等.中国近海新生代盆地构造差异性演化及油气勘探方向[J].地学前缘,2015,22(1):88-101. ZHU Weilin,WU Jingfu,ZHANG Gongcheng,et al.Discrepancy tectonic evolution and petroleum exploration in China offshore Cenozoic basins[J].Earth Science Frontiers,2015,22(1):88-101.
[23] 杨东辉,童亨茂,范彩伟,等.莺歌海盆地构造转折界面的确定及其地质意义[J].大地构造与成矿学,2019,43(3):590-602. YANG Donghui,TONG Hengmao,FAN Caiwei,et al.Determination of the tectonic transformation surface in Yinggehai Basin and its geological significance[J].Geotectonica et Metallogenia,2019,43(3):590-602.
[24] 舒良树.普通地质学[M].3版.北京:地质出版社,2010:202. SHU Liangshu.Physical geology[M].3rd ed.Beijing:Geological Publishing House,2010:202.
[25] 董刚,何幼斌.根据地层厚度恢复古水深的研究[J].长江大学学报(自然科学版),2010,7(3):484-486. DONG Gang,HE Youbin.Research of paleobathymetry recovery according to stratigraphic thickness[J].Journal of Yangtze University (Natural Science Edition),2010,7(3):484-486.
[26] 张辉,胡望水,李伟,等.关键层面古地貌演化剖面的建立及地质意义[J].油气地质与采收率,2018,25(2):8-14. ZHANG Hui,HU Wangshui,LI Wei,et al. Establishment of paleo-topography evolutionary section of key strata boundary and its geological implications[J].Petroleum Geology and Recovery Efficiency,2018,25(2):8-14.
[1] 张迎朝, 王立锋, 李绪深, 钟泽红, 詹冶萍, 徐涛. 莺歌海盆地砂质块体搬运沉积及其天然气聚集[J]. 石油实验地质, 2016, 38(2): 189-196.
[2] 谢玉洪, 张亚, 张哨楠, 张迎朝, 刘景环. 莺歌海盆地东方区黄流组低渗储层特征及影响因素分析[J]. 石油实验地质, 2015, 37(5): 541-547.
[3] 吴红烛, 黄志龙, 裴健翔, 童传新, 朱建成, 刘平, 朱珊珊. 莺歌海盆地底辟带DF区天然气地球化学特征差异及其成因[J]. 石油实验地质, 2015, 37(2): 211-219.
[4] 杨红君,郭书生,刘博,卢庆治,佟彦明. 莺歌海盆地SE区上中新统重力流与内波内潮汐沉积新认识[J]. 石油实验地质, 2013, 35(6): 626-633.
[5] 何家雄, 夏斌, 刘宝明, 张树林. 莺歌海盆地泥底辟热流体上侵活动与天然气及CO2运聚规律剖析[J]. 石油实验地质, 2004, 26(4): 349-358.
[6] 何将启, 王彦. 莺歌海盆地盆地结构及天然气成藏模式研究[J]. 石油实验地质, 2001, 23(4): 373-377.