中国地震沉积学研究现状和发展思考<sup>*</sup>

doi:10.7605/gdlxb.2020.03.027

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摘要地震沉积学是地震地层学和层序地层学的延续发展。最近10多年来,地震沉积学研究受到人们的高度重视,在地震沉积学理论、陆相碎屑沉积砂体、海相沉积砂体、碳酸盐岩和混积岩刻画、地震成岩相预测、砂体精细表征和开发地质应用、地球物理新方法新技术、RGB(Red-Green-Blue)地震属性融合、储集层预测技术以及三维可视化技术雕刻地质体等10个方面取得了长足进展。未来地震沉积学应该关注地震地貌学理论模型、地震岩性学新方法、勘探地震沉积学、开发地震沉积学、地球物理反演新方法和人工智能技术等方面的研究,不断完善地震沉积学理论方法,拓展地震沉积学在油气勘探开发等领域的应用,助力油气勘探开发提高经济效益。

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	朱筱敏
	董艳蕾
	曾洪流
	林承焰
	张宪国

关键词 ：地震沉积学, 地震沉积相, 地震成岩相, 砂体地震表征, 地震属性融合

Abstract：The seismic sedimentology is a continuous development of seismic stratigraphy and sequence stratigraphy,and has been paid much attention in recent ten years,especially in its principle,continental and marine classic sedimentary sandbodies,carbonate and mixed deposits,prediction of seismic diagenetic facies,fine characterization of sandbodies,new geophysical methods and techniques,RGB fusion of seismic attributes,and 3D visualization carving geobodies,etc. The future development of seismic sedimentology should concentrate on seismic geomorphological model,new method of seismic lithology,seismic sedimentology for exploration and exploitation, geophysical inversion methods,and artificial intelligent technology,etc. The gradually improvement of theory and methods in seismic sedimentology as well as the extended application of seismic sedimentology in hydrocarbon exploration and exploitation will increase its economic efficiency.

Key words： seismic sedimentology seismic sedimentary facies seismic diagenetic facies seismic sandbodies characterization seismic attribute fusion

收稿日期: 2020-04-26

ZTFLH:

P512.2

基金资助:*国家自然科学基金项目(编号: 41272133)与国家重大科技专项(编号: 2017ZX05001-002-002)联合资助

作者简介: 朱筱敏,男,1960年生,中国石油大学(北京)地球科学学院教授,博士生导师,主要从事层序地层学和沉积学等研究。E-mail: xmzhu@cup.edu.cn。

引用本文:

朱筱敏,董艳蕾,曾洪流等. 中国地震沉积学研究现状和发展思考^*[J]. 古地理学报, 2020, 22(3): 397-411.

Zhu Xiao-Min,Dong Yan-Lei,Zeng Hong-Liu et al. Research status and thoughts on the development of seismic sedimentology in China[J]. JOPC, 2020, 22(3): 397-411.

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http://journal09.magtechjournal.com/gdlxb/CN/10.7605/gdlxb.2020.03.027 或 http://journal09.magtechjournal.com/gdlxb/CN/Y2020/V22/I3/397

[1] 陈杨,张建新,黄灿,焦祥燕,罗威. 2019. 莺歌海盆地黄流组轴向重力流水道充填演化特征. 东北石油大学学报, 43(6): 23-32,61.
[Chen Y,Zhang J X,Huang C,Jiao X Y,Luo W.2019. Filling evolution characteristics of the axial gravity channel in Huangliu Formation in Yinggehai Basin. Journal of Northeast Petroleum University, 43(6): 23-32,61]
[2] 董艳蕾,朱筱敏,胡廷惠,罗家群,刘桂兰. 2011. 泌阳凹陷核三段地震沉积学研究. 地学前缘,18(2):284-293.
[Dong Y L,Zhu X M,Hu T H,Luo J Q,Liu G L.2011. Research on seismic sedimentology of He-3 Formation in Biyang Sag. Earth Science Frontiers, 18(2): 284-293]
[3] 黄捍东,曹学虎,罗群. 2011. 地震沉积学在生物礁滩预测中的应用: 以川东褶皱带建南—龙驹坝地区为例. 石油学报, 32(4): 629-636.
[Huang H D,Cao X H,Luo Q.2011. An application of seismic sedimentology in predicting organic reefs and banks: A case study on the Jiannan-Longjuba region of the eastern Sichuan fold belt. Acta Petrolei Sinica, 32(4): 629-636]
[4] 李明,李飞,杨宗恒,王锦西,梁锋,李正勇,梁菁,唐青松. 2019. 基于地震沉积学原理的河道砂体精细刻画: 以四川盆地龙岗地区沙溪庙组致密气藏为例. 天然气勘探与开发, 42(2): 76-83.
[Li M,Li F,Yang Z H,Wang J X,Liang F,Li Z Y,Liang J,Tang Q S.2019. Precise depicting channel sandbodies based on seismic sedimentology: An example from tight gas reservoirs of Shaximiao Formation,Longgang area,Sichuan Basin. Natural Gas Exploration and Development, 42(2): 76-83]
[5] 李倩,狄帮让,魏建新. 2017. 基于稀疏约束反演谱分解的缝洞储层叠后数据去噪应用效果分析. 石油物探, 56(5): 684-693.
[Li Q,Di B R,Wei J X.2017. Application of denoising method based on sparse constrained inverse spectral decomposition in poststack seismic data of cave-fractured reservoirs. Geophysical Prospecting for Petroleum, 56(5): 684-693]
[6] 林承焰,张宪国,董春梅. 2007. 地震沉积学及其初步应用. 石油学报, 28(2): 69-71.
[Lin C Y,Zhang X G,Dong C M.2007. Concepts of seismic sedimentology and its preliminary applications. Acta Petrolei Sinica, 28(2): 69-71]
[7] 林畅松,施和生,李浩,何敏,张忠涛,宫越,张博. 2018. 南海北部珠江口盆地陆架边缘斜坡带层序结构和沉积演化及控制作用. 地球科学, 43(10): 3407-3422
[Lin C S,Shi H S,Li H,He M,Zhang Z T,Gong Y,Zhang B.2018. Sequence architecture,depositional evolution and controlling processes of continental slope in Pearl River Mouth Basin,Northern South China Sea. Earth Sciences, 43(10): 3407-3422]
[8] 刘海,林承焰,张宪国,栗宝鹃. 2018. 黄骅坳陷孔店地区馆陶组地震沉积特征及沉积演化模式. 中国矿业大学学报, 47(3): 534-547.
[Liu H,Lin C Y,Zhang X G,Li B J.2018. Seismic sedimentary characteristics and evolution model of the Guantao Formation,Kongdian area,Huanghua Depression. Journal of China University of Mining & Technology, 47(3): 534-547]
[9] 刘力辉,陈珊,倪长宽. 2013. 叠前有色反演技术在地震岩性学研究中的应用. 石油物探, 52(2): 171-176.
[Liu L H,Chen S,Ni C K.2013. Application of prestack colored inversion technology in seismic lithology. Geophysical Prospecting for Petroleum, 52(2): 171-176]
[10] 罗泉源,焦祥燕,刘昆,李安琪,宋鹏. 2020. 乐东—陵水凹陷梅山组海底扇识别及沉积模式. 海洋地质与第四纪地质, 40(2): 90-99.
[Luo Q Y,Jiao X Y,Liu K,Li A Q,Song P.2020. Identification of submarine fan in the Meishan Formation of the Ledong-Lingshui Sag in the Qiongdongnan Basin and its depositional model. Marine Geology & Quaternary Geology, 40(2): 90-99]
[11] 潘树新,刘化清,Zavala Carlos,刘彩燕,梁苏娟,张庆石,白忠峰. 2017. 大型坳陷湖盆异重流成因的水道—湖底扇系统: 以松辽盆地白垩系嫩江组一段为例. 石油勘探与开发, 44(6): 860-870.
[Pan S X,Liu H Q,Zavala C,Liu C Y,Liang S J,Zhang Q S,Bai Z F.2017. Sublacustrine hyperpycnal channel fan system in a large depression basin: A case study of Nen 1 member,Cretaceous Nenjiang Formation in the Songliao Basin,NE China. Petroleum Exploration and Development, 44(6): 860-870]
[12] 芮志锋,林畅松,郭佳,杜家元,丁琳,李潇. 2019. 珠江口盆地惠州地区珠江组砂体尖灭的地质—地球物理“逐级预测”方法. 现代地质, 33(9): 1229-1240.
[Rui Z F,Lin C S,Guo J,Du J Y,Ding L,Li X.2019. Geological-geophysical“gradual prediction”method for up-dip pinch out sandstone of Zhujiang Formation,Huizhou Area,Pearl River Mouth Basin. Geoscience, 33(9): 1229-1240]
[13] 谈明轩,朱筱敏,刘强虎,刘伟,李顺利,赵芳. 2019. 渤海沙垒田地区新近系明下段多河型地震地貌学特征. 石油实验地质, 41(3): 411-419.
[Tan M X,Zhu X M,Liu Q H,Liu W,Li S L,Zhao F.2019. Seismic geomorphological characteristics of multiple fluvial patterns in the Neogene Lower member of Minghuazhen Formation in the Shaleitian area,Bohai Sea. Petroleum Geology and Experiment, 41(3): 411-419]
[14] 杨瑞召,赵争光,马彦龙,霍超,李洋. 2013. 利用谱蓝化和有色反演分辨薄煤层. 天然气地球科学, 24(1): 156-161.
[Yang R Z,Zhao Z G,Ma Y L,Huo C,Li Y.2013. Thin coal bed resolution by using seismic spectral bluing and colored inversion. Natural Gas Geoscience, 24(1): 156-161]
[15] 姚承宽. 2018. 人工智能在测绘地理信息行业中的应用. 河北省科学院学报, 35(4): 66-70.
[Yao C K.2018. Application of artificial intelligence in surveying and mapping geoinformation industry. Journal of the Hebei Academy of Sciences, 35(4): 66-70]
[16] 曾洪流,朱筱敏,朱如凯,张庆石. 2012. 陆相坳陷型盆地地震沉积学研究规范. 石油勘探与开发, 39(3): 295-304.
[Zeng H L,Zhu,X M,Zhu R K,Zhang Q S.2012. Guidelines for seismic sedimentologic study in non-marine post-rift basins. Petroleum Exploration and Development, 39(3): 295-304]
[17] 曾洪流,朱筱敏,朱如凯,张庆石. 2013. 砂岩成岩相地震预测: 以松辽盆地齐家凹陷青山口组为例. 石油勘探与开发, 40(3): 266-274.
[Zeng H L,Zhu X M,Zhu R K,Zhang Q S.2013. Seismic prediction of sandstone diagenetic facies: Applied to Cretaceous Qingshankou Formation in Qijia Depression,Songliao Basin. Petroleum Exploration and Development, 40(3): 266-274]
[18] 曾洪流,赵贤正,朱筱敏,金凤鸣,董艳蕾,王余泉,朱茂,郑荣华. 2015. 隐性前积浅水三角洲的地震沉积学特征: 以饶阳凹陷肃宁地区为例. 石油勘探与开发, 42(5): 566-576.
[Zeng H L,Zhao X Z,Zhu X M,Jin F M,Dong Y L,Wang Y Q,Zhu M,Zheng R H.2015. Seismic sedimentology characteristics of sub-clinoformal shallow water meandering river delta: A case from the Suning area of Raoyang sag in Jizhong Depression,Bohai Bay Basin,North China. Petroleum Exploration and Development, 42(5): 566-576]
[19] 张进铎. 2006. 地震解释技术现状及发展趋势. 地球物理进展, 21(2): 578-587.
[Zhang J D.2006. Present status and future trend of seismic data interpretation techniques. Progress in Geophysics, 21(2): 578-587]
[20] 张宏,董宁,宁俊瑞,武丽,国庆鹏,张永贵. 2010. 利用地震地貌学刻画古喀斯特地貌. 石油地球物理勘探,45(s1): 125-129.
[Zhang H,Dong N,Ning J R,Wu L,Guo Q P,Zhang Y G.2010. Using seismic geomorphology to characterize paleo-karst landforms. Oil Geophysical Prospecting,45(s1): 125-129]
[21] 张宪国,张涛,鞠传学,林承焰,董春梅,林建力,韩硕. 2018. 一种基于多尺度信息的致密储层成岩相定量预测方法和技术流程. 中国授权发明专利: ZL201510895321.7.
[Zhang X G,Zhang T,Ju C X,Lin C Y,Dong C M,Lin J L,Han S.2018. A quantitative method and workflow for diagenetic facies prediction of tight reservoir based on multiple scale information. China Patent: ZL201510895321.7]
[22] 朱红涛,杨香华,周心怀,李建平,王德英,李敏. 2011. 基于层序地层学和地震沉积学的高精度三维沉积体系: 以渤中凹陷西斜坡BZ3-1区块东营组为例. 地球科学, 36(6): 1073-1084.
[Zhu H T,Yang X H,Zhou X H,Li J P,Wang D Y,Li M.2011. High resolution three-dimensional facies architecture delineation using sequence stratigraphy,seismic sedimentology: Example from Dongying Formation in BZ3-1 block of western slope of Bozhong sag,Bohai Bay Basin. Earth Science, 36(6): 1073-1084]
[23] 朱筱敏,曾洪流,董艳蕾. 2017. 地震沉积学原理与应用. 北京: 石油工业出版社.
[Zhu X M,Zeng H L,Dong Y L. 2017. The Principle and Application of Seismic Sedimentology. Beijing: Petroleum Industry Press]
[24] 朱筱敏,董艳蕾,曾洪流,黄捍东,刘强虎,秦祎,叶蕾. 2019. 沉积地质学发展新航程: 地震沉积学. 古地理学报, 21(2): 189-201.
[Zhu,X M,Dong Y L,Zeng H L,Huang H D,Liu Q H,Qin Y,Ye L.2019. New development trend of sedimentary geology: Seismic sedimentology. Journal of Palaeogeography(Chinese Edition), 21(2): 189-201]
[25] Dahm C G,Graebner R J.1979. Field development with three-dimensional seismic methods in Gulf of Thailand-a case history. Offshore Technology Conference,Paper 3657: 2591-2595.
[26] Dong Y L,Zhu X M,Xian B Z.2015. Seismic geomorphology study of the Paleogene Hetaoyuan Formation,central-south Biyang Sag,Nanxiang Basin,China. Marine and Petroleum Geology, 64: 104-124.
[27] Dong Y L,Zhang M Y,Zhu X M,Wei M P.2017. Seismic geomorphology and depositional system of delta and terminal fan: A case study of the Neogene Shawan Formation in the Chepaizi Uplift,Junggar Basin,China. Marine and Petroleum Geology, 83: 362-381.
[28] Janocko M,Nemeca W,Henriksen S,Warchol M.2013. The diversity of deep-water sinuous channel belts and slope valley-fill complexes. Marine and Petroleum Geology, 41: 7-34.
[29] Galloway W E,Hobday D K.1983. Terrigenous Clastic Depositional Systems: Applications to Petroleum,Coal,and Uranium Exploration. New York: Springer-Verlag.
[30] Huang H D,Yuan S Y,Zhang Y T,Zeng J,Mu W T.2016. Use of nonlinear chaos inversion in predicting deep thin lithologic hydrocarbon reservoirs: A case study from the Tazhong oilfield of the Tarim Basin,China. Geophysics, 81(6): B221-B234.
[31] Lancaster S,Whitcombe D.2000. Fast-track ‘Colored’ Inversion.70th SEG Annual International Meeting. Expanded Abstracts: 1572-1575.
[32] Luo Y N,Huang H D,Yang Y D,Li Q X,Zhang S,Zhang J W.2018. Deepwater reservoir prediction using broadband seismic-driven impedance inversion and seismic sedimentology in the South China Sea. Interpretation, 6(4): SO17-SO29.
[33] Posamentier H W.2001. Seismic geomorphology and depositional systems of deep water environments;observations from offshore Nigeria,Gulf of Mexico,and Indonesia(abs). AAPG Annual Convention Program, 10: A160.
[34] Posamentier H W,Venkatarathnan K.2003. Seismic geomorphology and stratigraphy of depositional elements in deep-water settings. Journal of Sedimentary Research, 73(3): 367-388.
[35] Reijenstein H M,Posamentier H W,Bhattacharya J P.2011. Seismic geomorphology and high-resolution seismic stratigraphy of inner-shelf fluvial,estuarine,deltaic and marine sequences,Gulf of Thailand. AAPG Bulletin, 95(11): 1959-1990.
[36] Schlager W.2000. The future of applied sedimentary geology. Journal of Sedimentary Research, 70: 2-9.
[37] Vail P R,Mitchum R M Jr,Thompson S Ⅲ.1977. Seismic stratigraphy and global changes of sea level,Part 3: Relative changes of sea level from coastal onlap. AAPG Memoir, 26: 63-81.
[38] Wood L J.2007. Quantitative seismic geomorphology of Pliocene and Miocene fluvial systems in the northern Gulf of Mexico,USA. Journal of Sedimentary Research, 77: 713-730.
[39] Yue D L,Li W,Wang W R,Hu G Y,Qiao H L,Hu J J,Zhang M L,Wang W F.2019. Fused spectral-decomposition seismic attributes and forward seismic modelling to predict sand bodies in meandering fluvial reservoirs. Marine and Petroleum Geology, 99: 27-44.
[40] Zeng H L.1994. Facies-guided 3-D seismic modeling and reservoir characterization. Docteral dissertation of the University of Texas at Austin.
[41] Zeng H L.2017. Thickness imaging for high-resolution stratigraphic interpretation by linear combination and color blending of multiple-frequency panels. Interpretation, 5(3): T411-T422.
[42] Zeng H L.2018. What is seismic sedimentology?A tutorial. Interpretation, 6(2): SD 1-12.
[43] Zeng H L,Kerans C.2003. Seismic frequency control on carbonate seismic stratigraphy: A case study of the Kingdom Abo sequence,west Texas. AAPG Bulletin, 87(2): 273-293.
[44] Zeng H L,Hentz T F.2004. High-frequency sequence stratigraphy from seismic sedimentology: Applied to Miocene,Vermilion Block 50,Tiger Shoal area,offshore Louisiana. AAPG Bulletin, 88(2): 153-174.
[45] Zeng H L,Backus M M,Barrow K T,Noel T.1998a. Stratal slicing,part Ⅰ: Realistic 3-D seismic model. Geophysics, 63(2): 502-513.
[46] Zeng H L,Henry S C,Riola J P.1998b. Stratal slicing,part Ⅱ: Real seismic data. Geophysics, 63(2): 514-522.
[47] Zeng H L,Loucks R G,Brown L F.2007. Mapping sediment-dispersal patterns and associated systems tracts in fourth-and fifth-order sequences using seismic sedimentology: Example from Corpus Christi Bay,Texas. AAPG Bulletin, 91(7): 981-1003.
[48] Zeng H L,Wang W,Liang Q S.2017. Seismic expression of delta to deep-lake transition and its control on lithology,total organic content,brittleness,and shale-gas sweet spots in Triassic Yanchang Formation,southern Ordos Basin,China. Interpretation, 5(2): SF1-SF14.
[49] Zeng H L,Zhao W Z,Xu Z H,Fu Q L,Hu S Y,Wang Z C,Li B H.2018. Carbonate seismic sedimentology: A case study of Cambrian Longwangmiao Formation,Gaoshiti-Moxi area,Sichuan Basin,China. Petroleum Exploration and Development, 45(5): 830-839.
[50] Zhao D N,Zhu X M,Dong Y L,Wu D,Zhu M.2014. Application of seismic sedimentology to prediction of beach and bar sandbodies in gentle slope of lacustrine basin: A case study of the Lower Cretaceous in Chepaizi area,Junggar Basin,NW China. Petroleum Exploration and Development, 41(1): 60-67.
[51] Zhao W Z,Hu S Y,Xu Z H,Zeng H L,Liu W,Fu Q L,Shi S Y.2018. Lithology mapping of a mixed siliciclastic-carbonate-evaporite system using 3D seismic and well data: Lower Triassic Jialingjiang Formation,Sichuan Basin,southwestern China. Marine and Petroleum Geology, 93: 422-436.
[52] Zhu X M,Zhong D K,Yuan X J,Zhang H L,Zhu S F,Sun H T,Gao Z Y,Xian B Z.2016. Development of sedimentary geology of petroliferous basins in China. Petroleum Exploration and Development,43(5):890-901.
[53] Zhu X M,Zeng H L,Li S L,Dong Y L,Zhu S F,Zhao D N,Huang W.2017. Sedimentary characteristics and seismic geomorphologic responses of shallow-water delta of Qingshankou Formation in Songliao Basin,China. Marine and Petroleum Geology, 79: 131-148.
[54] Zhu X M,Pan R,Li S L,Wang H B,Zhang X,Ge J W,Lu Z Y.2018. Seismic sedimentology of sand-gravel bodies on steep slope of rift basins: A case study of Shahejie Formation,Dongying sag,Eastern China. Interpretation, 6(2): SD13-SD27.