Journal of Jilin University(Earth Science Edition) ›› 2016, Vol. 46 ›› Issue (4): 1090-1099.doi: 10.13278/j.cnki.jjuese.201604110

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Research on Oil Shale Features and Metallogenic Differences in Dunhua-Mishan Fault Zone Basins

Liu Zhaojun1,2, Sun Pingchang1,2, Liu Rong1,2, Meng Qingtao1,2, Hu Fei1,2   

  1. 1. College of Earth Sciences, Jilin University, Changchun 130061, China;
    2. Key-Laboratory for Oil Shale and Coexisting Minerals, Jilin University, Changchun 130061, China
  • Received:2016-06-30 Online:2016-07-26 Published:2016-07-26
  • Supported by:

    Supported by Nation Natural Science Fund (41402088), China Postdoctoral Science Foundation Grant (2014M550174 and 2015T80303) and Science and Technology Development Plan of Jilin Province (20150520070JH)

Abstract:

Several oil shale-bearing basins are distributed in the Dunhua-Mishan fault zone in Northeast China. The characteristics of tectonic and sedimentary filling evolution, sedimentary association, the occurrences of oil shale and coal indicated that oil shale deposited in the heyday of the lakes, while the sedimentary age of oil shale layers was the Paleogene Eocene Lutetian Stage. While oil shale have displayed certain differences among these basins, from southwest to northeast direction of this fault zone, the thickness of oil shale becomes smaller, and sedimentary environment changed from deep lake to semi-deep lake, and limnetic finally. Meanwhile, the organism sources was dominated by aquatic organism in the southwest part basins, and it became a mixture of terrestrial and aquatic organic matter in the middle part of this fault zone, whereas organic matter of northeast part basins in the fault zone originates mainly from land plants. Combined oil shale layers developed in the same age and similar paleoclimate, tectonic subsidence and sedimentary filling were the key factors on controlling the differences of oil shale in these basins. Perpetual underfilled sedimentary environment and large accommodation promoted huge thick high quality oil shale developed. With the decreasing of accommodation and increasing terrigenous debris supply, the thickness of oil shale thinned and distributed sparsely, while grade of deep lake and limnetic oil shale was high and semi-deep lake oil shale was low.

Key words: Dunhua-Mishan fault zone, Paleogene, basins, oil shale, metallogenic differences, ore controlling factors

CLC Number: 

  • P618.12

[1] 吴根耀,马力,梁兴,等. 从郯庐断裂带两侧的"盆""山"耦合演化看前白垩纪"郯庐断裂带"的性质[J]. 地质学报,2008,27(3):308-325. Wu Genyao, Ma Li, Liang Xing, et al. The Nature of the Pre-Cretaceous "Tanlu Fault Zone" Viewed in the Light of Basin Range Coupling Evolution on Its Both Sides[J]. Geological Bulletin of China, 2008, 27(3): 308-325.

[2] 陈荣度. 从辽宁东、西部地质对比论郯庐断裂的平移运动[J]. 辽宁地质, 1995, 9: 184-193. Chen Rongdu. On the Translation Movement of Tan-Lu Fracture From Geological Correlation Between East and West Liaoning[J]. Liaoning Geology, 1995, 9:184-193.

[3] 张贻侠,孙运生,张兴洲,等.中国满洲里绥芬河地学断面[M]. 北京:地质出版社, 1999:15-56. Zhang Yixia, Sun Yunsheng, Zhang Xingzhou, et al. Manzhouli-Suifenhe Global Geoscience Transect (GCT) of North China[M]. Beijing: Geological Publishing House, 1999:15-56.

[4] 孙晓猛,王书琴,王英德,等. 郯庐断裂带北段构造特征及构造演化序列[J]. 岩石学报,2010, 26(1):165-176. Sun Xiaomeng, Wang Shuqin, Wang Yingde, et al. The Structural Feature and Evolutionary Series in the Northern Segment of Tancheng-Lujiang Fault Zone[J]. Acta Petrologica Sinica, 2010, 26(1):165-176.

[5] 刘志宏,梅梅,高军义,等. 东北东部虎林盆地的构造特征、成盆机制及敦密断裂带北东段的形成时代[J]. 吉林大学学报(地球科学版),2014,44(2):480-489. Liu Zhihong, Mei Mei, Gao Junyi, et al. Strctural Features, Formation Mechanism of Hulin Basin and Deformation Time of Northeastern Segment of Dunhua-Mishan Fault Zone in Northeast China[J]. Journal of Jilin Unversity: Earth Science Edition, 2014, 44(2): 480-489.

[6] Quan C, Liu Y S C, Utescher T. Paleogene Temperature Gradient, Seasonal Variation and Climate Evolution of Northeast China[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 2012, (313/314): 150-161.

[7] 胡善亭, 康西栋, 吴克平, 等.梅河盆地聚煤环境分析[J].中国煤田地质, 1996, 8(2): 13-15. Hu Shanting, Kang Xidong, Wu Keping, et al. Sedimentary Coal Accumulating Environment of Meihe Basin[J]. Coal Geology of China, 1996, 8(2): 13-15.

[8] 张普林,吕宝臣,李春田,等. 早第三纪桦甸动物群的发现及其地质意义[J]. 吉林地质,1986,4:1-11. Zhang Pulin, Lü Baochen, Li Chuntian, et al. Discovery of the Huadian Fauna of the Early Tertiary and Its Geological Significance[J]. Jilin Geology, 1986, 4: 1-11.

[9] 孟庆涛. 桦甸盆地始新统油页岩岩石地球化学特征及富集规律研究[D]. 长春:吉林大学,2010: 27-53. Meng Qingtao. Research on Petrologic and Geochemical Characteristics of Eocene Oil Shale and Its Enrichment Regularity, Huadian Basin[D]. Changchun: Jilin University, 2010:27-53.

[10] 王海峰,张廷山,戴传瑞,等. 敦化盆地上侏罗统上新统地层划分对比讨论[J].中国地质,2008,35(1):40-53. Wang Haifeng, Zhang Tingshan, Dai Chuanrui, et al. Stratigraphic Division and Correlation of the Upper Jurassic-Pliocene in the Dunhua Basin[J]. Geology in China, 2008, 35(1): 40-53.

[11] 王东方.抚顺古新世玄武岩特征及其在郯庐断裂发展中的构造意义[J].岩石矿物学杂志,1986,5(3):212-219. Wang Dongfang. The Paleocene Basalt in Fushun District and Their Tectonic Significance in Development of Tancheng-Lujiang Fault Belt[J]. Acta Petrologica et Mineralogica, 1986, 5(3): 212-219.

[12] 景建安,王宁,黎伟. 宁安盆地构造演化与找铀矿远景预测[J]. 铀矿地质,2008,24(3):143-149. Jing Jian'an, Wang Ning, Li Wei. The Structural Evolution and Prognosis of Uranium Exploration in Ning'an Basin[J]. Uranium Geology, 2008, 24(3): 143-149.

[13] 王珊. 鸡西盆地早白垩世城子河组穆棱组沉积体系分析[D]. 武汉:中国地质大学,2012:9-14. Wang Shan. Depositional System Analysis of Early Cretaceous Chengzihe-Muling Formation in Jixi Basin Northeastern China[D]. Wuhan: China University of Geosciences, 2012: 9-14.

[14] 谭宝德. 虎林盆地七虎林河坳陷下第三系虎林组烃源岩地球化学特征[J]. 内蒙古石油化工,2011,12:132-135. Tan Baode. The Geochemical Characteristics of Hydrocarbon Source Rocks of Qihulin River Depress in HuLin Basin[J]. Inner Mongolia Petrochemical Industry, 2011, 12: 132-135.

[15] 刘招君,杨虎林,董清水,等. 中国油页岩[M]. 北京:石油工业出版社,2009:38-116. Liu Zhaojun, Yan Hulin, Dong Qingshui, et al. Oli Shale in China[M].Beijing: Petroleum Industry Press, 2009: 38-116.

[16] Bai Y Y, Liu Z J, Sun P C, et al. Rare Earth and Major Element Geochemistry of Eocene Fine-grained Sediments in Oil Shale-and Coal-Bearing Layers of the Meihe Basin, Northeast China[J]. Journal of Asian Earth Sciences, 2015, 97: 89-101.

[17] 柳蓉,刘招君,刘沣,等. 抚顺盆地始新世计军屯组油页岩贫富矿成矿机制[J]. 大庆石油地质与开发,2008,27(2):47-50. Liu Rong, Liu Zhaojun, Liu Feng, et al. High Grade and Low Grade Oil Shale Metallogenic Mechanism of Eocene Jijuntun Formation in Funshun Basin[J]. Petroleum Geology & Oilfield Development in Daqing, 2008, 27(2): 47-50.

[18] Strobl S A I, Sachsenhofer R F, Bechtel A, et al. Depositional Environment of Oil Shale Within the Eocene Jijuntun Formation in the Fushun Basin (NE China)[J]. Marine and Petroleum Geology, 2014, 56: 166-183.

[19] 徐银波,柳蓉,刘招君,等. 梅河盆地古近纪梅河组有机质富集规律及沉积演化研究[J]. 煤炭学报,2013,38(11):2007-2016. Xu Yinbo, Liu Rong, Liu Zhaojun, et al.Deposition and Enrichment Pattern of Organic Matter of the Meihe Formation in the Paleogene,Meihe Basin[J].Journal of China Coal Society, 2013, 38 ( 11) : 2007-2016.

[20] 李宝毅,姚树青,孙平昌,等. 梅河盆地油页岩特征及成因[J]. 世界地质,2014,33 ( 2 ) : 457-464. Li Baoyi,Yao Shuqing, Sun Pingchang, et al. Characteristics and Origin of Oil Shale in Meihe Basin[J]. Global Geology, 2014, 33(2) : 457-464.

[21] Sun P C, Sachsenhofer R F, Liu Z J, et al. Organic Matter Accumulation in the Oil Shale-and Coal-Bearing Huadian Basin (Eocene; NE China)[J]. International Journal of Coal Geology, 2013, 105: 1-15.

[22] 孙平昌, 刘招君, 孟庆涛, 等. 桦甸盆地古近纪充填特征及对油页岩成矿的影响[J]. 煤炭学报, 2011, 36(7): 1110-1116. Sun Pingchang, Liu Zhaojun, Meng Qingtao, et al. Effect of the Basin-Fill Features on Oil Shale Formation in Paleogene, Huadian Basin[J]. Journal of China Coal Society, 2011, 36(7): 1110-1116.

[23] Strobl S A I, Sachsenhofer R F, Bechtel A, et al. Deposition of Coal and Oil Shale in NE China: The Eocene Huadian Basin Compared to the Coeval Fushun Basin[J]. Marine and Petroleum Geology, 2015, 64: 347-362.

[24] 郭文秀,温志良,刘建民,等. 吉林省油页岩[M]. 长春:吉林科学技术出版社,2013:116-145. Guo Wenxiu, Wen Zhiliang, Liu Jianmin, et al. Oil Shale Deposits in Jilin Province[M]. Changchun: Jilin Science and Technology Publishing House, 2013: 116-145.

[25] 于明德,王璞珺,蒋永福,等. 敦化盆地烃源岩地球化学特征及其生烃潜力[J]. 石油实验地质,2008,30( 3) : 270-275. Yu Mingde, Wang Pujun, Jiang Yongfu, et al. Geochemical Characteritics of Source Rocks and Its Hydrocarbon Generation Potential in the Dunhua Basin[J]. Petroleum Geology & Experiment, 2008, 30( 3) : 270-275.

[26] 朱峰. 柳树河盆地和宁安盆地油页岩成藏环境研究[D]. 北京:中国地质大学,2010:9-30. Zhu Feng. Environment Studies of Oil Shale in Liushuhe and Ning'an Basin[D]. Beijing: China University of Geosciences, 2010: 9-30.

[27] 周动力,董青松. 黑龙江宁安盆地古近系油页岩沉积环境分析[J]. 东北石油大学学报,2014,38(1):25-30. Zhou Dongli, Dong Qingsong. Analysis of Sedimentary Environment of Palaeogene Oil Shale in Heilongjiang Ning'an Basin[J]. Journal of Northeast Petroleum University, 2014, 38(1): 25-30.

[28] 柏静儒,韩冰,李梦迪,等. 黑龙江鸡西油页岩综合利用过程能效分析[J]. 东北电力大学学报,2015,35(4):56-61. Bai Jingru, Han Bing, Li Mengdi, et al. Energy Efficiency Analysis of Heilongjiang Jixi Oil Shale Compressive Utilization[J]. Journal of Northeast Dianli University, 2015, 35(4): 56-61.

[29] 姜翠莹. 虎林盆地油页岩沉积特征[J]. 煤炭技术,2009,28(11):132-133. Jiang Cuiying. Oil Shale Sedimentary Features of Hulin Basin[J]. Coal Technology, 2009, 28(11): 132-133.

[30] 张晓畅. 虎林盆地虎1井烃源岩评价及油源对比[J]. 大庆师范学院学报,2012,32(3):110-112. Zhang Xiaochang. Source Rock Evaluation and Oil-Source Correlation of Hu1Well in Hulin Basin[J]. Journal of Daqing Normal University, 2012, 32(3): 110-112.

[31] Carroll A R, Bohacs K M. Stratigraphic Classification of Ancient Lakes: Balancing Tectonic and Climatic Controls[J]. Geology, 1999, 27: 99-102.

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