吉林大学学报(地球科学版) ›› 2020, Vol. 50 ›› Issue (2): 518-530.doi: 10.13278/j.cnki.jjuese.20190274

• 沉积盆地分析 • 上一篇    下一篇

松辽盆地北部上二叠统林西组地球化学特征及地质意义

张健, 张海华, 陈树旺, 郑月娟, 张德军, 苏飞, 黄欣   

  1. 中国地质调查局沈阳地质调查中心, 沈阳 110034
  • 收稿日期:2019-12-18 出版日期:2020-03-26 发布日期:2020-03-31
  • 通讯作者: 张海华(1986-),男,工程师,主要从事岩石学、大地构造学研究,E-mail:zhanghaihua311@163.com E-mail:zhanghaihua311@163.com
  • 作者简介:张健(1980-),男,高级工程师,主要从事沉积学和油气基础地质调查研究,E-mail:48487885@qq.com
  • 基金资助:
    中国地质调查局项目(DD20160163,DD20190097)

Geochemical Characteristics and Geological Significance of Upper Permian Linxi Formation in Northern Songliao Basin

Zhang Jian, Zhang Haihua, Chen Shuwang, Zheng Yuejuan, Zhang Dejun, Su Fei, Huang Xin   

  1. Shenyang Center, China Geological Survey, Shenyang 110034, China
  • Received:2019-12-18 Online:2020-03-26 Published:2020-03-31
  • Supported by:
    Supported by Project of China Geological Survey(DD20160163,DD20190097)

摘要: 为探讨松辽盆地北部林西组地球化学特征、沉积环境及构造背景,对该区黑富地1井所钻遇的上二叠统林西组暗色泥质板岩进行主量元素、微量元素和稀土元素测试分析,结果表明:样品主量元素平均质量分数SiO2为65.05%、Al2O3为17.23%、CaO为2.58%、Na2O为2.84%、K2O为3.29%,K2O/Na2O值为0.20~3.48,A12O3/(CaO+Na2O)值为0.41~8.01;稀土元素w(∑REE)值介于80.68×10-6~215.59×10-6之间,平均值为173.41×10-6δEu值介于0.61~0.88之间,平均值为0.70,表现为Eu的负异常,δCe值介于0.91×10-6~1.01×10-6之间,为微弱的Ce负异常,LREE富集,HREE亏损;微量元素以亏损Nb、Ta、Sr,相对富集Rb、Ba、La、Ce、Pb、Nd、Sm为特征。样品元素分析和物源w(TiO2)-w(Ni)、La/Th-w(Hf)等判别图解表明,林西组沉积物源具有多样性,主要来源于上地壳长英质物源,还有少量来自中、基性岩火成岩物源区。样品微量元素标准化蛛网图,稀土元素球粒陨石标准化配分模式图,K2O/Na2O-w(SiO2)、Th-Co-Zr/10、F2-F1构造背景判别图及地球化学参数对比结果表明,松辽盆地北部林西组物源构造背景主要为活动大陆边缘和大陆岛弧,可能形成于靠近大陆岛弧的活动大陆边缘构造背景。林西组应形成于海陆过渡相到陆相环境,水体由半咸水逐渐转变为淡水。

关键词: 松辽盆地, 林西组, 地球化学, 沉积环境, 构造背景

Abstract: Experimental data of the major elements, trace elements and rare earth elements of the dark argillaceous slate from the Upper Permian Linxi Formation in Well Heifudi 1 of the northern Songliao basin were examined so as to discuss the geochemical characteristics, sedimentary environment and tectonic background of the Linxi Formation. The average content of major elements is SiO2=65.05%, Al2O3=17.23%, CaO=2.58%, Na2O=2.84%, and K2O=3.29%. K2O/Na2O is 0.20-3.48, and A12O3/(CaO+Na2O) is 0.41-8.01. The ΣREE is between 80.68×10-6 and 215.59×10-6 (average 173.41×10-6), the δEu negative anomaly is between 0.61 and 0.88 (average 0.70), and the Ce negative anomaly is between 0.91×10-6 and 1.01×10-6, relatively weak. The clastic rocks are characterized by LREE enrichment and HREE depletion. The trace elements are characterized by a loss of Nb, Ta, and Sr, and are relatively rich in Rb, Ba, La, Ce, Pb, Nd, and Sm. The elemental analysis of core samples and the results of w(TiO2)-w(Ni)and La/Th-w(Hf)indicate that the sediment source of Linxi Formation is diverse, mainly from felsic rock of the upper crust with a minority of intermediate-basic igneous provenance. The results of trace element standardized spider web map, rare earth element chondrite standardized partition pattern,diagrams of K2O/Na2O-w(SiO2), Th-Co-Zr/10, F2-F1 structural background discrimination,and geochemical parameters comparison indicate that the provenance of Linxi Formation in Well Heifudi 1 is mainly from active continental margin and continental island arc,which would like be formed in the marine-terrestrial transitional to terrestrial environment.

Key words: Songliao basin, Linxi Formation, geochemistry, sedimentary environment, tectonic setting

中图分类号: 

  • P595
[1] 陈树旺,丁秋红,郑月娟,等.松辽盆地外围新区、新层系:油气基础地质调查进展与认识[J]. 地质通报,2013,32(8):1147-1158. Chen Shuwang, Ding Qiuhong, Zheng Yuejuan, et al. New Areas and Series of Strata on the Periphery of Songliao Basin:The Progress and Recognition Based on Foundational Geological Survey for Oil and Gas Resources[J]. Geological Bulletin of China, 2013, 32(8):1147-1158.
[2] 张健,卞雄飞,陈树旺,等.大兴安岭中南部上二叠统林西组页岩气资源前景[J].地质通报,2013,32(8):1297-1306. Zhang Jian, Bian Xiongfei, Chen Shuwang, et al. Shale Gas Resources Prospect of Late Permian Linxi Formation in the Middle Southern Part of the Da Hinggan Mountains[J]. Geological Bulletin of China, 2013,32(8):1297-1306.
[3] 郑月娟,张健,陈树旺,等.内蒙古阿鲁科尔沁旗陶海营子剖面林西组化石新发现[J].地质通报,2013,23(8):1269-1276. Zheng Yuejuan, Zhang Jian, Chen Shuwang,et al. New Fossil Discovery Along the Section of Linxi Formation at Taohaiyingzi in Ar Horqin Banner, Inner Mongolia[J]. Geological Bulletin of China, 2013,32(8):1269-1276.
[4] 郑月娟,张海华,陈树旺,等.内蒙古阿鲁科尔沁旗林西组砂岩LA-ICP-MS锆石U-Pb年龄及意义[J].地质通报,2014,33(9):1293-1307. Zheng Yuejuan, Zhang Haihua, Chen Shuwang, et al. LA-ICP-MS U-Pb Age of Detrital Zircons from Late Permian Linxi Formation in Ar Horqin Banner, Inner Mongolia[J]. Geological Bulletin of China, 2014,33(9):1293-1307.
[5] 张永生,牛绍武,田树刚,等.内蒙古林西地区上二叠统林西组叶肢介化石的发现及其意义[J].地质通报,2012,31(9):1394-1403. Zhang Yongsheng,Niu Shaowu,Tian Shugang,et al. The Discovery of Conchostracan Fossils in the Upper Permian Linxi Formation of Linxi Area,Inner Mongolia,and Its Geological Significance[J]. Geological Bulletin of China, 2012,31(9):1394-1403.
[6] 李福来,曲希玉,刘立,等.内蒙古东北部上二叠统林西组沉积环境[J].沉积学报,2009,27(2):265-272. Li Fulai,Qu Xiyu,Liu Li,et al. Sedimentary Environment on Upper Permian Linxi Group in Inner Mongolia[J].Acta Sedimentologica Sinica,2009,27(2):265-272.
[7] 余和中.松辽盆地及周边地区石炭纪- 二叠纪岩相古地理[J].沉积与特提斯地质,2001,21(4):70-83. Yu Hezhong. Sedimentary Facies and Palaeogeography of the Songliao Basin and Its Peripheral Areas During Carboniferous-Permian Time[J]. Sedimentary Geology and Tethyan Geology,2001,21(4):70-83.
[8] 朱如凯,许怀先,邓胜徽,等.中国北方地区二叠纪岩相古地理[J].古地理学报,2007,9(2):133-142. Zhu Rukai,Xu Huaixian,Deng Shenghui,et al. Lithofacies Palaeogeography of the Permian in Northern China[J]. Journal of Palaeogeography,2007,9(2):133-142.
[9] 张海华,张健,苏飞,等.内蒙古阿鲁科尔沁旗林西组泥岩地球化学特征及构造意义[J].地质学报,2019,93(5):1125-1136. Zhang Haihua,Zhang Jian,Su Fei,et al.Geochemical Characteristics of Mudstone from the Late Permian Linxi Formation in Aluke'Erqin Qi,Inner Mogolia and Its Structural Significance[J].Acta Geologica Sinica,2019,93(5):1125-1136.
[10] 甄甄, 陈树旺, 郑月娟, 等. 内蒙古阿鲁科尔沁旗陶海营子剖面林西组地球化学特征及其对物源-构造背景的制约[J]. 中国地质, 2018,45(5):1011-1022. Zhen Zhen, Chen Shuwang, Zheng Yuejuan, et al. Geochemical Characteristics of Linxi Formation Along Taohaiyingzi Section in Ar Horqin Banner, Inner Mongolia, and the Constraint on the Provenances and the Tectonic Settings[J].Geology in China,2018,45(5):1011-1022.
[11] 孙德有,吴福元,张艳斌,等.西拉木伦河-长春-延吉板块缝合带的最后闭合时间:来自吉林大玉山花岗岩体的证据[J].吉林大学学报(地球科学版),2004,34(2):174-181. Sun Deyou, Wu Fuyuan, Zhang Yanbin, et al. The Final Closing Time of the West Lamulun River-Changchun-Yanji Plate Suture Zone:Evidence from the Day Ushan Granitic Pluton, Jilin Province[J]. Journal of Jilin University(Earth Science Edition), 2004,34(2):174-181.
[12] 李锦轶,高立明,孙桂华,等.内蒙古东部双井子中三叠世同碰撞壳源花岗岩及其对西伯利亚与中朝古板块碰撞时限的约束[J].岩石学报,2007,23(3):565-582. Li Jinyi, Gao Liming, Sun Guihua, et al. Shuangjingzi Middle Triassic Syn-Collisional Crust-Derived Granite in the East Inner Mongolia and Its Constraint on the Timing of Collision Between Siberian and Sino- Korean Paleo-Plates[J]. Acta Petrologica Sinica, 2007,23(3):565-582.
[13] Hou Huanxin, Wang Haiyan, Gao Rui,et al. Fine Crustal Structure and Deformation Beneath the Great Xing'an Ranges CAOB:Revealed by Deep Seismic Reflection Profile[J]. Journal of Asian Earth Sciences,2015, 113:491-500.
[14] Liu Yongjiang, Li Weimin, Feng Zhiqiang,et al.A Review of the Paleozoic Tectonics in the Eastern Part of Central Asian Orogenic Belt[J]. Gondwana Research,2017,43:123-148.
[15] 唐高林,张惠华,代堰锫,等.川西江浪穹窿核部里伍岩群变质岩的地球化学特征及成岩构造背景[J].矿物岩石,2016,36(1):41-47. Tang Gaolin,Zhang Huihua,Dai Yanpei, et al.Geochemical Features and Tectonic Setting of Metamorphic Rocks in the Liwu Group, Core of the Jianglang Dome,Western Sichuan Province[J]. Mineral Petrol, 2016,36(1):41-47.
[16] 杨阳,张旭阳,吕古贤,等.湘西民乐地区马底驿组-牛蹄塘组板岩类稀土元素地球化学特征及其意义[J].西安科技大学学报,2017,37(1):90-97. Yang Yang,Zhang Xuyang,Lü Guxian,et al. Madiyi Formation-Niutitang Formation Slate Class Geochemical Characteristics of Rare Earth Elements and Their Significance in Minle Area,Western Hunan Province,China[J]. Journal of Xi'an University of Science and Technology, 2017,37(1):90-97.
[17] 姜福杰,庞雄奇,柳广弟,等. 松辽盆地滨北地区扶杨储层油气优势运移通道[J].现代地质,2010,24(6):1112-1125. Jiang Fujie,Pang Xiongqi,Liu Guangdi,et al. Dominant Petroleum Migration Pathways of Fuyang Reservoir in Binbei Area,Songliao Basin[J]. Geoscience,2010,24(6):1112-1125.
[18] 王晓波,李剑,王东良,等. 松辽盆地北部浅层气分布、成藏控制因素及有利勘探方向分析[J].东北石油大学学报,2013,37(6):1-11. Wang Xiaobo,Li Jian,Wang Dongliang,et al. Analysis of Shallow Gas Distribution Rules,Controlling Factors of Reservoir Formation and Exploration Directions in Northern Songliao Basin[J]. Journal of Northeast Petroleum University,2013,37(6):1-11.
[19] Taylor S R, Mclennan S M.The Continental Crust:Its Composition and Evolution[J]. Oxford:Blackwell Scientific Publications,1985:117-140.
[20] Haskin L A, Haskin M A, Frey F A, et al. Relative and Absolute Terrestrial Abundances of the Rare Earths[M]//Ahrens L H. Origin and Distribution of the Elements. Oxford:Pergamon,1968:889-912.
[21] Culler R L. The Controls on the Major and Trace-Element Evolution of Shales,Siltstones and Sandstones of Ordovician to Tertiary Age in the Wet Mountain Region,Colorado,USA[J]. Chemical Geology,1995,123:107-131.
[22] Savoy L E,Stevenson R K,Mounoy E W. Provenance of Upper Devonnian-Lower Carboniferous Miogeoclinal Stata,Southeastern Canadian Cordillera:Link Between Tectonics and Sedimentation[J]. Journal of Sedimentary Research,2000,70:181-193.
[23] 沈渭洲,舒良树,向磊,等.江西井冈山地区早古生代沉积岩的地球化学特征及其对沉积环境的制约[J].岩石学报,2009,25(10):2442-2458. Shen Weizhou, Shu Liangshu, Xiang Lei, et al. Geochemical Characteristics of Early Paleozoic Sedimentary Rocks in the Jinggangshan Area, Jiangxi Province and the Constraining to the Sedimentary Environment[J]. Acta Petrologica Sinica, 2009,25(10):2442-2458.
[24] 张英利,王宗起,闫臻,等.库鲁克塔格地区新元古代贝义西组的构造环境来自碎屑岩地球化学的证据[J].岩石学报,2011,27(6):1785-1796. Zhang Yingli,Wang Zongqi,Yan Zhen,et al. Tectonic Setting of Neoproterozoic Beiyixi Formation in Quruqtagh Area,Xinjiang:Evidence from Geochemistry of Clastic Rocks[J]. Acta Petrologica Sinica,2011,27(6):1785-1796.
[25] 刘士林,刘蕴华,林舸,等.渤海湾盆地南堡凹陷新近系泥岩稀土元素地球化学特征及其地质意义[J].现代地质,2006,20(3):449-456. Liu Shilin,Liu Yunhua,Lin Ge,et al. REE Geochemical Characteristics and Geologygical Significance of Mudstones from Neogene,Nanpu Sag,Bohai Basin[J]. Geoscience,2006,20(3):449-456.
[26] Girty G H,Ridge D L,Knaack C. Provenance and Depositional Setting of Paleozoic Chert and Argillite,Sierra Nevada,California[J]. Journal of Sedimentary Research,1996,66(1):107-118.
[27] Floyd P A,Winchester J A,Park R G. Geochemistry and Tectonic Setting of Lewisian Clastic Metasediments from the Early Proterozoic Loch Maree Group of Gairloch,NW Scotland[J]. Precambrian Research,1989, 45:203-214.
[28] Roser B P,Korech R J. Determination of Tectonic Setting of Sandstone-Mudstone Suites Using SiO2 Content and K2O/Na2O Ratio[J]. Journal of Geology,1986, 94:635-650.
[29] Bhatia M R. Plate Tectonics Setting of Sandstones and Geochemical Composition of Sandstones[J]. Journal of Geology,1983,91(6):611-627.
[30] Yan Zhen,Wang Zongqi, Yan Quanren,et al. Geochemical Constraints on the Provenance and Depositional Setting of the Devonian Liuling Group, East Qinling Mountains,Central China:Implications for the Tectonic Evolution of the Qinling Orogenic Belt[J]. Journal of Sedimentary Research,2012, 82:9-20.
[31] Murry R W. Rare Earth Elements as Indicators of Different Marine Depositional Environments in Chert and Shale[J]. Geology,1990,18:268-271.
[32] Hatch J R,Leventhal J S. Relationship Between Inferred Redox Potential of the Depositional Environmental and Geochemistry of the Upper Pennsylvanian (Missourian)Stark Shale Member of the Dennis Limestone Wabaunsee County,Kansas,USA[J]. Chemical Geology,1992,99:65-82.
[33] 汪凯明,罗顺社.燕山地区中元古界高于庄组和杨庄组地球化学特征及环境意义[J].矿物岩石地球化学通报,2009,28(4):356-364. Wang Kaiming,Luo Shunshe. Geochemical Characteristics and Environmental Significance of Gaoyuzhuang Formations in Yanshan Region[J]. Bulletin of Mineralogy,Petrology and Geochemistry,2009,28(4):356-364.
[34] 郑荣才,柳梅青.鄂尔多斯盆地长6油层组古盐度研究[J].石油与天然气地质,1999,20(1):20-25. Zheng Rongcai,Liu Meiqing. Study on Palaeosalinity of Chang Oil Reservoir Set in Ordos Basin[J].Oil and Gas Geology,1999,20(1):20-25.
[35] 李进龙,陈东敬.古盐度定量研究方法综述[J].油气地质与采收率,2003,10(5):1-3. Li Jinlong,Chen Dongjing. Summary of Quantlfied Research Method on Paleosalinity[J]. Petroleum Geology and Recovery Efficiency,2003, 10(5):1-3.
[36] 张健,李晓海,郑月娟,等.内蒙古扎鲁特旗地区上二叠统林西组古盐度分析[J].地质与资源, 2013,22(6):471-477. Zhang Jian,Li Xiaohai,Zheng Yuejuan,et al. Analysis on the Pleosalinity of Upper Permian Linxi Formation in Jarud area,Inner Mongolia[J]. Geology and Resources,2013,22(6):471-477.
[1] 王嗣敏, 臧东升, 王熙琼, 李杰, 韩嵩, 李建中. 辽西建昌盆地油页岩发育特征及沉积环境[J]. 吉林大学学报(地球科学版), 2020, 50(2): 326-340.
[2] 孟庆涛, 李金国, 刘招君, 胡菲, 徐川. 茂名盆地羊角含矿区始新统油柑窝组油页岩有机地球化学特征及沉积环境[J]. 吉林大学学报(地球科学版), 2020, 50(2): 356-367.
[3] 宋宇, 刘招君, Achim Bechtel, 徐银波, 孟庆涛, 孙平昌, 朱凯. 老黑山盆地下白垩统穆棱组油页岩与煤含油率控制因素[J]. 吉林大学学报(地球科学版), 2020, 50(2): 378-391.
[4] 郑国栋, 孟庆涛, 刘招君. 松辽盆地北部青一段油页岩地球化学特征及其记录的古湖泊学信息[J]. 吉林大学学报(地球科学版), 2020, 50(2): 392-404.
[5] 和钟铧, 王启智, 王强. 大兴安岭索伦地区哲斯组碎屑岩地球化学特征和锆石U-Pb年龄对沉积物源属性约束[J]. 吉林大学学报(地球科学版), 2020, 50(2): 405-424.
[6] 董清水, 何春生, 楼仁兴, 任锡钢, 张超, 张渝金, 许圣传. 大兴安岭南段阿鲁科尔沁旗地区林西组沉积环境特征及其时限的地质意义[J]. 吉林大学学报(地球科学版), 2020, 50(2): 425-441.
[7] 易海永, 崔宝琛, 王瑶琳, 邱玉超, 徐胜林, 李乾. 四川盆地广安地区中二叠统栖霞组岩石特征与沉积环境[J]. 吉林大学学报(地球科学版), 2020, 50(2): 454-464.
[8] 陈会军, 于宏斌, 马永非, 陈井胜, 钱程, 刘世伟, 崔天日, 钟辉. 吉东南地区五女峰岩体锆石U-Pb年代学、岩石地球化学特征及其构造意义[J]. 吉林大学学报(地球科学版), 2020, 50(2): 531-541.
[9] 苗长盛, 徐文, 刘玉虎, 谢荣祥. 松辽盆地南部火山岩储层特征[J]. 吉林大学学报(地球科学版), 2020, 50(2): 635-643.
[10] 徐进军, 李宁, 金强, 刘吉华, 楼达, 滕建成. 黄骅坳陷石炭-二叠系凝析油气地球化学特征及来源分析[J]. 吉林大学学报(地球科学版), 2020, 50(2): 644-652.
[11] 施璐, 唐振, 郑常青, 秦涛, 张立东, 汪岩, 钱程, 杨帆. 大兴安岭中部柴河地区晚侏罗世花岗质岩石成因及构造意义[J]. 吉林大学学报(地球科学版), 2020, 50(1): 112-128.
[12] 张书义. 内蒙古新巴尔虎右旗塔木兰沟组火山岩年代学与地球化学特征[J]. 吉林大学学报(地球科学版), 2020, 50(1): 129-138.
[13] 许中杰, 孔锦涛, 程日辉, 李双林, 孔媛, 于振峰. 下扬子南京地区早寒武世幕府山组海平面相对升降的地球化学和碳、氧同位素记录[J]. 吉林大学学报(地球科学版), 2020, 50(1): 158-169.
[14] 张鹏辉, 张小博, 方慧, 王小江, 刘建勋. 地球物理资料揭示的嫩江—八里罕断裂中段深浅构造特征[J]. 吉林大学学报(地球科学版), 2020, 50(1): 261-272.
[15] 雷如雄, 赵同阳, 李平, 董连慧, 李基宏, 吴昌志. 北阿尔金地区大平沟金矿H-O-S-Pb同位素地球化学特征对金矿成因的启示[J]. 吉林大学学报(地球科学版), 2019, 49(6): 1578-1590.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
No Suggested Reading articles found!