天文地层学与旋回地层学的关系、研究进展及其意义

doi:10.3969/j.issn.1673-8926.2017.01.020

Lithologic Reservoirs ›› 2017, Vol. 29 ›› Issue (1): 147-156.doi: 10.3969/j.issn.1673-8926.2017.01.020

The research progress, significance and relationship of astrostratigraphy with cyclostratigraphy

YAN Jianping^1,2, YAN Yu², PENG Jun², LI Zunzhi^1,2, GENG Bin³, LAI Fuqiang⁴

1. Sichuan Key Laboratory of Natural Gas Geology, Southwest Petroleum University, Chengdu 610500, China;
2. School of Geoscience and Technology, Southwest Petroleum University, Chengdu 610500, China;
3. Research Institute of Exploration and Development, Shengli Oilfield Company, Sinopec, Dongying 257015, Shandong, China;
4. Chongqing Key Laboratory of Complex Oil & Gas Field Exploration and Development, Chongqing University of Science & Technology, Chongqing 401331, China

Received:2016-08-09 Revised:2016-10-22 Online:2017-01-21 Published:2017-01-21

Abstract

Abstract: Cyclostratigraphy has made great progress in explaining many problems in the field of geology,and provides a new way for stratigraphic classification of Ma scale and subscale. The cyclostratigraphy does not highlight the influence of earth orbit parameters on the stratigraphic cyclicity,and it cannot be distinguished from formation cycles resulted by other driving force,which produces some confusion. So,scholars put forward“astrostratigraphy” to solve these problems. On the basis of a large number of literature research,the connotation and development process of astrostratigraphy and its relationship with cyclostratigraphy were summarized. In addition, it is pointed out that the methods such as logging time-frequency analysis,spectrum analysis and digital filter have obvious advantages in astrostratigraphy research. These methods can be used to effectively extract stratigraphic response information related to earth orbit parameters,and then determine the stratigraphic age of Ma scale and subscale. With the development of the unconventional hydrocarbon exploration and development,the astrostratigraphy will further lead to the development of sub-Milankovitch cycle with a higher precision,so as to meet the needs of geological stratification in thick shale oil and gas exploration and development.

Key words: tight oil core, pumping solvent, washing oil solvent, washing oil methods, Junggar Basin

CLC Number:

P539

YAN Jianping, YAN Yu, PENG Jun, LI Zunzhi, GENG Bin, LAI Fuqiang. The research progress, significance and relationship of astrostratigraphy with cyclostratigraphy[J].Lithologic Reservoirs, 2017, 29(1): 147-156.

References

[1] 丁仲礼. 米兰科维奇冰期旋回理论:挑战与机遇. 第四纪研究,2006,26(5):710. DING Z L. The Milankovitch theory of pletstocene glacial cycles: challenges and chances. Quaternary Sciences,2006,26(5): 710.
[2] HART M B. Orbitally induced cycles in the chalk facies of the United Kingdom. Cretaceous Research,1987,8(4):335.
[3] 徐道一,韩延本,李国辉,等. 天文地层学的兴起. 地层学杂志,2006,30(4):323-324. XU D Y,HAN Y B,LI G H,et al. The rise of astrostratigraphy. Journal of Stratigraphy,2006,30(4):323-324.
[4] 姚益民,徐道一,张海峰,等. 山东东营凹陷新生代天文地层表简介. 地层学杂志,2007,31(增刊2):427. YAO Y M,XU D Y,ZHANG H F,et al. A brief introduction to the Cenozoic astrostratigraphic time scale for the Dongying Depression, Shandong. Journal of Stratigraphy,2007,31(Suppl 2): 427.
[5] 徐道一,张海峰,韩延本,等. 陆相沉积的天文地层研究方法简介——以井下地层为例. 地层学杂志,2007,31(增刊2): 431-432. XU D Y,ZHANG H F,HAN Y B,et al. Introduction to the method for the astrostratigraphic study of terrestrial sediments: taking underground stratigraphy for an example. Journal of Stratigraphy,2007,31(Suppl 2):431-432.
[6] 陈中红,查明,金强. 自然伽马及自然伽马能谱测井在沉积盆地古环境反演中的应用. 地球物理学报,2004,47(6):1145. CHEN Z H,ZHA M,JIN Q. Application of natural gamma ray logging and natural gamma spectrometry logging to recovering paleoenvironment of sedimentary basin. Chinese Journal of Geophysics,2004,47(6):1145.
[7] RAMPINO M R,PROKOPH A,ADLER A. Tempo of the end- Permian event:high- resolution cyclostratigraphy at the Permian- Triassic boundary. Geology,2000,28(7):645.
[8] BERGER A,LOUTRE M F,LASKAR J. Stability of the astronomical frequencies over the Earth's history for paleoclimatestudies. Science,1992,255(5044):562.
[9] 吴怀春,张世红,冯庆来,等. 旋回地层学理论基础、研究进展和展望. 地球科学——中国地质大学学报,2011,36(3):410, 417. WU H C,ZHANG S H,FENG Q L,et al. Theoretical basis,research advancement and prospects of cyclostratigraphy. Earth Science—Journal of China University of Geosciences,2011,36 (3):410,417.
[10] 龚一鸣,杜远生,童金南,等. 旋回地层学:地层学解读时间的第三里程碑. 地球科学——中国地质大学学报,2008,33(4): 446. GONG Y M,DU Y S,TONG J N,et al. Cyclostratigraphy:the third milestone of stratigraphy in understanding time. Earth Science— Journal of China University of Geosciences,2008,33(4): 446.
[11] VAIL P R,MITCHUM R M,THOMPSON III S. Seismic stratigraphy and global changes of sea level,part 3:relative changes of sealevel from coastal onlap. AAPG Memoir 26,1977:63.
[12] CROSS T A,GARDNER M H. Base- Level Concepts and Sequence Stratigraphy. Research Program in Finance Working Papers, 1991.
[13] 梅冥相,徐德斌,周洪瑞. 米级旋回层序的成因类型及其相序组构特征.沉积学报,2000,18(1):46-48. MEI M X,XU D B,ZHOU H R. Genetic types of meter-scale cyclic sequences and their fabric features of facies-succession. Acta Sedimentologica Sinica,2000,18(1):46-48.
[14] 徐道一. 天文地质年代表与旋回地层学研究进展. 地层学杂志,2005,29(增刊1):635. XU D Y. Astro-geologic time scale and the advancements of cyclostratigraphy. Journal of Stratigraphy,2005,29(Suppl 1): 635.
[15] HAYS J D,IMBRIE J,SHACKLETON N J. Variations in the Earth's orbit:pacemaker of the ice ages. Science,1976,194:45- 46.
[16] 龚一鸣,张克信. 地层学基础与前沿. 武汉:中国地质大学出版社,2007. GONG Y M,ZHANG K X. Basic and frontiersinstratigraphy. Wuhan:China University of Geosciences Press,2007.
[17] HILGEN F,SCHWARZACHER W,STRASSER A. Concepts and definitions in cyclostratigraphy(second reportof the cyclostratigraphy working group). SEPM Special Publication, 2004(81):303-305.
[18] 田军,汪品先,成鑫荣,等. 南海ODP1143 站上新世至更新世天文年代标尺的建立. 地球科学——中国地质大学学报, 2005,30(1):33-35. TIAN J,WANG P X,CHENG X R,et al. Establishment of the Plio- Pleistocene astronomical timescale of ODP site 1143, southern south China Sea.Earth Science—Journal of China University of Geosciences,2005,30(1):33-35.
[19] ZACHOS J C,SHACKLETON N J,REVENAUGH J S,et al. Climate response to orbital forcing across the Oligocene-Miocene boundary. Science,2001,292:274-278.
[20] 黄春菊. 旋回地层学和天文年代学及其在中生代的研究现状. 地学前缘,2014,21(2):49-52.. HUANG C J. The current status of cyclostratigraphy and astrochronology in the Mesozoic. Earth Science Frontiers,2014, 21(2):49-52.
[21] 付斌,杨映洲,邹丽蓉. 时频分析方法在识别河流相层序中的应用. 岩性油气藏,2013,25(4):90. FU B,YANG Y Z,ZOU L R. Application of time- frequency analysis technique to recognition of fluvial faciessequence. Lithologic Reservoirs,2013,25(4):90.
[22] 刘立,薛林福. 旋回地层学的基本原理与研究方法. 世界地质,1994,13(3):88. LIU L,XUE L F. Fundamental principles and research methods of cyclostratigraphy. Global Geology,1994,13(3):88.
[23] SIERRO F J,LEDESMA S,FLORES J A,et al. Sonic and gamma- ray astrochronology:cycle to cycle calibration of Atlantic climatic records to Mediterranean sapropels and astronomical oscillations. Geology,2000,28(8):695-697.
[24] 龚一鸣,徐冉,汤中道,等. 广西上泥盆统轨道旋回地层与牙形石带的数字定年. 中国科学D辑:地球科学,2004,34(7): 641-642. GONG Y M,XU R,TANG Z D,et al. The Upper Devonian orbital cyclostratigraphy and numerical dating conodont zones from Guangxi,South China. Science in China Series D:Earth Sciences,2004,34(7):641-642.
[25] 姚益民,付国斌,徐道一,等. 新疆吐哈盆地侏罗系旋回地层的初步研究. 地层学杂志,2003,27(2):123-127. YAO Y M,FU G B,XU D Y,et al. Preliminary study on the high-resolution cyclostratigraphy of the Jurassic System in Turpan- Hami Basin,Xinjiang. Journal of Stratigraphy,2003,27(2): 123-127.
[26] 刘洋,吴怀春,张世红,等. 珠江口盆地珠一坳陷韩江组—万山组旋回地层学. 地球科学——中国地质大学学报,2012,37 (3):411-419. LIU Y,WU H C,ZHANG S H,et al. Cyclostratigraphy research on the Hanjiang-Wanshan Formations in Zhuyi Depression, Pearl River Mouth Basin. Earth Science—Journal of China University of Geosciences,2012,37(3):411-419.
[27] LASKAR J,FIENGA A,GASTINEAU M,et al. La 2010:a new orbital solution for the longterm motion of the Earth. Physics, 2011,532(2):1-16.
[28] 姚益民,修申成,魏秀玲,等. 东营凹陷下第三系ESR测年研究. 油气地质与采收率,2002,9(2):31. YAO Y M,XIU S C,WEI X L,et al. Researches on the ESR geochronometry in Palaeogene of Dongyingdepression. Petroleum Geology and Recovery Efficiency,2002,9(2):31.
[29] 李凤杰,郑荣才,罗清林,等. 四川盆地东北地区长兴组米兰科维奇周期分析. 中国矿业大学学报,2007,36(6):806-809. LI F J,ZHENG R C,LUO Q L,et al. Analysis of Milankovitch Cycles of the Changxing Formation in Northeastern Sichuan Basin. Journal of China University of Mining & Technology, 2007,36(6):806-809.
[30] 李庆谋. 测井曲线Milankovitch 周期分析与应用. 地球物理学报,1996,39(5):699. LI Q M. The analysis and application of Milankovitch cycles by logging data. Chinese Journal of Geophysics,1996,39(5): 699.
[31] 余继峰,李增学. 测井数据小波变换及其地质意义. 中国矿业大学学报,2003,32(3):337-338. YU J F,LI Z X. Wavelet transform of logging data and its geological significance. Journal of China University of Mining & Technology,2003,32(3):337-338.
[32] 冯磊. 利用地震资料时频特征分析沉积旋回. 岩性油气藏, 2011,23(2):95. FENG L. Using time-frequency characteristics to analyze sedimentary cycle. Lithologic Reservoirs,2011,23(2):95.
[33] 付文钊,余继峰,杨锋杰,等. 测井记录中米氏旋回信息提取及其沉积学意义——以济阳坳陷区为例. 中国矿业大学学报,2013,42(6):1027. FU W Z,YU J F,YANG F J,et al. Feature extraction of Milankovitch cycle in well logs and its sedimentological significance: a case study of Jiyang Depression zone. Journal of China University of Mining & Technology,2013,42(6):1027.
[34] 张海峰,张林晔,姚益民,等. 东营凹陷沙河街组四段滩坝砂米氏旋回层序划分与对比. 地层学杂志,2008,32(3):278- 282. ZHANG H F,ZHANG L Y,YAO Y M,et al. Milankovitch cycles and sequence division and correlation of the member 4 of the Shahejie Formation in the DongyingDepression,Shandong. Journal of Stratigraphy,2008,32(3):278-282.
[35] 汪品先. 地质计时的天文“钟摆”. 海洋地质与第四纪地质, 2006,26(1):1. WANG P X. Astronomical“pendulum”for geological clock. Marine Geology & Quaternary Geology,2006,26(1):1.
[36] GRADSTEIN F M,OGG J G,SMITH A G,et al. A new geologic time scale,with special reference to Precambrian and Neogene. Episodes,2004,27(2):83-100.
[37] 龚一鸣,李保华. 高分辨率地层学与Milankovitch 旋回和ENSO 事件沉积. 地质科技情报,1999,18(2):32. GONG Y M,LI B H. High resolution stratigraphy,Milankovitch cycle and ENSO event deposits. Geological Science and Technology Information,1999,18(2):32.
[38] 吴智勇,姜衍文. 地层记录中的天文事件及其研究意义. 岩相古地理,1996,16(4):63-64. WU Z Y,JING Y W. Astronomical events in the stratigraphic records and their implications. Sedimentary Facies and Palaeogeography, 1996,16(4):63-64.
[39] CONNOLLY W M,STANTON R J. Interbasinalcyclostratigraphic correlation of Milankovitch band transgressive- regressive cycles:correlation of Desmoinesian- Missourian strata between southeastern Arizona and the midcontinent of North America. Geology,1992,20(11):999-1002.
[40] 汪品先,翦知湣. 寻求高分辨率的古环境记录. 第四纪研究, 1999,19(1):1-2. WANG P X,JIAN Z M. Searching high- resolution paleoenvironmental records:a review. Quaternary Sciences,1999,19(1): 1-2.
[41] RIAL J A. Pacemaking the ice ages by frequency modulation of Earth’s orbital eccentricity. Science,1999,285:565-567.
[42] 姜在兴,梁超,吴靖,等. 含油气细粒沉积岩研究的几个问题. 石油学报,2013,34(6):1031. JIANG Z X,LIANG C,WU J,et al. Several issues in sedimentological studies on hydrocarbon-biaring fine-grained sedimentary rocks. Acta Petrolei Sinica,2013,34(6):1031.
[43] 朱光有,金强,周建林. 东营凹陷旋回式深湖相烃源岩研究. 地质科学,2003,38(2):254. ZHU G Y,JIN Q,ZHOU J L. Source rock characters of cyclic deep- lake facies in the DongyingDepression. Chinese Journal of Geology,2003,38(2):254.
[44] 张占松,蔡道钢,甘利灯. 用测井曲线能谱分析技术研究沉积速率. 江汉石油学院学报,1999,21(4):18-20. ZHANG Z S,CAI D G,GAN L D. Studying sedimentation rate by means of spectral analysis of logs. Journal of Jianghan Petroleum Institute,1999,21(4):18-20.
[45] 朱剑兵. 基于最大熵谱估计的沉积旋回划分方法探讨. 岩性油气藏,2012,24(2):67-71. ZHU J B. Division of sedimentary cycle sequences based on maximum entropy spectrum estimation. Lithologic Reservoirs, 2012,24(2):67-71.
[46] YU J F,SUI F G,LI Z X,etal. Recognition of Milankovitch cycles in the stratigraphic record:application of the CWT and the FFT to well- log data. Journal of China University of Mining and Technology,2008,18(4):594.
[47] 王贵文,邓清平,唐为清. 测井曲线谱分析方法及其在沉积旋回研究中的应用. 石油勘探与开发,2002,29(1):93-95. WANG G W,DENG Q P,TANG W Q. The application of spectral analysis of logs in depositional cycle studies. Petroleum Exploration and Development,2002,29(1):93-95.

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