柴北缘西段侏罗系沉积特征<sup>*</sup>

doi:10.7605/gdlxb.2017.04.046

Abstract
Figure/Table
References()
Related Citation (15)
Read Tracking
Download Tracking

Download: PDF (5184 KB) HTML (1 KB)
Export: BibTeX | EndNote (RIS) Supporting Info

Abstract The medium-small basins including Suhai Hu Basin,in north margin of Qaidam Basin,are potential strategic replacement fields of oil and gas resources in western China,and the preliminary work has revealed that Mesozoic source rocks developed in western north margin of Qaidam Basin have a certain exploration potential. It is essential that the analysis of sedimentary characteristics and environments is of great significance to the study of the distribution of source rocks and effective reservoirs. However,up to now,the little cognition of the sedimentary characteristics and environments has restricted the further oil-gas exploration work in this area. Through a series of technical means,such as outcrop observation,drilling data and geochemical data analysis,it is the sedimentary systems and environments in Jurassic that have been studied preliminarily. All of those will support the further oil-gas exploration. In the study,fan delta and lake depositions were developed in Suhai Hu Basin in the Early and Middle Jurassic,and the dominant braided river facies were developed in the Late Jurassic. Meanwhile,during Jurassic Period the sedimentary provenance probably came from the northern Qilian Mountain. In the Jurassic Period,the delta-marsh-lacustrine depositional system,containing rich coal seams,was well developed in the southern margin of Sertengshan Mountain,and the sedimentary provenance came from the northwestern and northeastern areas. In Lenghu area,the deep to semi-deep lacustrine deposits were developed in the Huxishan Formation in the Early Jurassic,and the sedimentary scource provenance probably came from the nearby Altun Mountain. According to the geochemistry analysis of mudstone samples,rocks in the study area mainly form in reduction environments,and different samples contain the similar distribution patterns of REE. The analysis of tectonic-sedimentary evolution shows that the western north margin of Qaidam Basin was on the initial rift stage in the Early Jurassic,and the sedimentary center of the lacustrine basin was located in Lenghu area. In middle age of the Middle Jurassic,corresponding to the Member 4 of Dameigou Formation,the interior of Suhai Hu Basin was rifted,while the sedimentary center was moving toward to east. Afterward, corresponding to Member 7, a big lacustrine basin was formed due to lake flooding in this area. The source rocks of Jurassic were mainly developed during the rising stage of the lake level when the Member 5 to Member 7 of Dameigou Formation deposited.

	Service

	E-mail this article
	Add to my bookshelf
	Add to citation manager
	E-mail Alert
	RSS
	Articles by authors
	Liu Xin
	Zhu Shifa
	Du Jianjun
	Liu Chenglin
	Qin Yi
	Zhang Jiatang

Key words： western north margin of Qaidam Basin Suhai Hu Basin Jurassic sedimentary facies sedimentary environment

Received: 08 October 2016

ZTFLH:

P512

Fund:Co-funded by the project of China Geological Survey(No.12120115003501),the Young Scientists Foundation of National Natural Science Foundation of China(No.41202107),the Doctor Science Research Foundation of Education Ministry(No.20120007120004)and the Science Foundation of China University of Petroleum(Beijing)(No; KYJJ2012-01-20)

Corresponding Authors: Du Jianjun,born in 1976,is a researcher and Ph.D. of Chinese Academy of Geological Sciences. He is mainly engaged in structural geology and geological hazards. E-mail: djjwyf@sina.com.

About author: Liu Xin,born in 1991,is a master degree candidate in China University of Petroleum(Beijing). She is mainly engaged in geology and sedimentology. E-mail: m13611093469_2@163.com.

Cite this article:

Liu Xin,Zhu Shifa,Du Jianjun et al. Sedimentary characteristics of the Jurassic in western north margin of Qaidam Basin[J]. JOPC, 2017, 19(4): 595-608.

URL:

http://journal09.magtechjournal.com/gdlxb/EN/10.7605/gdlxb.2017.04.046 OR http://journal09.magtechjournal.com/gdlxb/EN/Y2017/V19/I4/595

1 陈志勇,肖安成,周苏平,何光玉. 2005. 柴达木盆地侏罗系分布的主控因素研究. 地学前缘,12(3): 149-155. [Chen Z Y,Xiao A C,Zhou S P,He G Y. 2005. The main control factor for Jurassic distribution in Qaidam Basin. Earth Science Frontiers,12(3): 149-155]
2 邓文诗,张丽霞,成永盛. 2009. 青海省下中侏罗统含煤岩系沉积特征及聚煤作用. 中国煤炭地质,21(S2): 15-18. [Deng W S,Zhang L X,Cheng Y S. 2009. Coal-bearing strata sedimentary features and coal accumulation process in lower middle series,Jurassic System,Qinghai Province. Coal Geology of China,21(S2): 15-18]
3 付锁堂. 2009. 柴北缘深层气藏形成的地质条件及有利勘探区带. 天然气地球科学,20(6): 841-845. [Fu S T. 2009. Geological conditions of deep gas pools and their favorable prospects. Natural Gas Geoscience,20(6): 841-845]
4 郭帅. 2012. 柴北缘东段侏罗纪沉积-构造演化. 中国石油大学(华东)硕士论文: 1-92. [Guo S. 2012. Research on Jurassic sedimentary and tectonic evolution of the east section of northern Qaidam Basin. Masteral Dissertation of China University of Petroleum(East China): 1-92]
5 李浩涵,任收麦,郭天旭,王胜建,周志,徐秋枫. 2016. 柴达木盆地鱼卡凹陷侏罗系泥页岩地球化学特征及储集条件: 以柴页1井为例. 地质通报,35(2-3): 251-259. [Li H H,Ren S M,Guo T X,Wang S J,Zhou Z,Xu Q F. 2016. Organic geochemistry characteristics and reservoir conditions of Jurassic shale in Yuqia depression of northern Qaidam Basin: A case study of Chaiye-1 well. Geological Bulletin of China,35(2-3): 251-259]
6 李敏,颉永平. 2010. 不同沉积地球化学特征对沉积环境的指示意义. 内蒙古石油化工,36(16): 41-43. [Li M,Jie Y P. 2010. Sedimentary geochemistry characteristics and its sedimentary environment significance. Inner Mongolia Petrochemical,36(16): 41-43]
7 李明杰,郑孟林,曹春潮,张军勇. 2005. 柴达木古近纪—新近纪盆地的形成演化. 西北大学学报(自然科学版),35(1): 87-90. [Li M J,Zheng M L,Cao C C,Zhang J Y. 2005. Formation and evolution of Qaidam Paleogene and Neogene Basin. Journal of Northwest University(Natural Science Edition),35(1): 87-90]
8 楼谦谦,肖安成,杨浩,黄宏升,丁卫星,沈中延,王亮,陈元忠,沈亚,汪立群,周苏平. 2009. 柴达木盆地北缘中生代盆地性质研究: 对大柴旦凹陷的解剖. 高校地质学报,15(3): 407-416. [Lou Q Q,Xiao A C,Yang H,Huang H S,Ding W X,Sheng Z Y,Wang L,Chen Y Z,Shen Y,Wang L Q,Zhou S P. 2009. Characteristics of Mesozoic basin of the northern Qaidam: A case study on Dachaidan Depression. Geological Journal of China Universities,15(3): 407-416]
9 马新民,郝海燕,马峰,段国禄,程玉红. 2013. 柴北缘鱼卡大煤沟组七段油页岩开发价值. 西南石油大学学报(自然科学版),35(3): 52-58. [Ma X M,Hao H Y,Ma F,Duan G L,Cheng Y H. 2013. Developmental value of oil shale in the 7th Member of Middle Jurassic in Yuqia Area,Qaidam Basin. Journal of Southwest Petroleum University(Science & Technology Edition),35(3): 52-58]
10 施辉,刘震,丁旭光,杨乾政,王标. 2013. 柴达木盆地西南地区古近纪—新近纪断裂坡折带与沉积相分布. 古地理学报,15(3): 317-326. [Shi H,Liu Z,Ding X G,Yang Q Z,Wang B. 2013. Fault slope-break zone and sedimentary facies distribution of the Paleogene-Neogene in southwestern Qaidam Basin. Journal of Palaeogeography(Chinese Edition),15(3): 317-326]
11 孙洪杰,雷敏,王大华,柴先平,田连玉,周红建. 2013. 柴达木盆地北缘东部侏罗系发育特征. 世界地质,32(3): 531-538. [Sun H J,Lei M,Wang D H,Chai X P,Tian L Y,Zhou H J. 2013. Development characteristics of Jurassic in northeast margin of Qaidam Basin. Global Geology,32(3): 531-538]
12 王国茹,陈洪德,朱志军,林良彪,范昱. 2010. 川东南—湘西地区志留系小河坝组砂岩稀土元素特征及其地质意义. 石油实验地质,32(5): 487-495. [Wang G R,Chen H D,Zhu Z J,Lin L B,Fan Y. 2010. The characteristics and geological implications of rare earth elements in sandstone of Lower Silurian Xiaoheba Formation in the southeastern Sichuan-western Hunan. Petroleum Geology and Experiment,32(5): 487-495]
13 汪立群,庞雄奇,党玉琪,马达德,马立协. 2014. 柴北缘马海—大红沟凸起油气成藏模式与有利勘探目标. 石油与天然气地质,25(6): 696-702. [Wang L Q,Pang X Q,Dang Y Q,Ma D D,Ma L X. 2014. Reservoiring patterns and favorable exploration targets in Mahai-Dahonggou salient in the northern edge of Qaidam Basin. Oil & Gas Geology,25(6): 696-702]
14 肖安成,陈志勇,杨树锋,马立协,巩庆林,陈元忠. 2005. 柴达木盆地北缘晚白垩世古构造活动的特征研究. 地学前缘,12(4): 451-456. [Xiao A C,Chen Z Y,Yang S F,Ma L X,Gong Q L,Chen Y Z. 2005. The study of Late Cretaceous paleostructural characteristics in northern Qaidam Basin. Earth Science Frontiers,12(4): 451-456]
15 谢庆宾,管守锐. 2000. 柴达木盆地北缘侏罗系沉积相类型及储集层评价. 石油勘探与开发,27(2): 40-44. [Xie Q B,Guan S R. 2000. Sedimentary facies type and reservoir evaluation for the northern Qaidam Basin. Petroleum Exploration and Development,27(2): 40-44]
16 熊国庆,王剑,胡仁发. 2008. 贵州梵净山地区震旦系微量元素特征及沉积环境. 地球学报,29(1): 51-60. [Xiong G Q,Wang J,Hu R F. 2008. Trace element characteristics and sedimentary environment of the Sinian system of the Fanjingshan Area in Guizhou Province. Acta Geoscientica Sinica,29(1): 51-60]
17 杨浩. 2007. 柴达木盆地北缘中生代的盆地结构分析:以大柴旦地区为例. 浙江大学硕士论文: 1-54. [Yang H. 2007. Structural analysis of the Mesozoic basin in the north margin of the Qaidam Basin: Taking Dachaidan Area as an example. Masteral Dissertation of Zhejiang University: 1-54]
18 杨平,杨玉芹,马立协,董宁,袁秀君. 2007. 柴达木盆地北缘侏罗系沉积环境演变及其石油地质意义. 石油勘探与开发,34(2): 160-164. [Yang P,Yang Y Q,Ma L X,Dong N,Yuan X J. 2007. Evolution of the Jurassic sedimentary environment in northern margin of Qaidam Basin and its significance in petroleum geology. Petroleum Exploration and Development,34(2): 160-164]
19 杨永泰,张宝民,李伟,瞿辉. 2000. 柴达木盆地北缘侏罗系层序地层与沉积相研究. 地学前缘,7(3): 145-151. [Yang Y T,Zhang B M,Li W,Qu H. 2000. Study of Jurassic stratigraphic sequence and sedimentary facies in North of Qaidam Basin. Earth Science Frontiers,7(3): 145-151]
20 岳天祥. 2011. 青海省冷湖—鱼卡地区中侏罗统含煤地层特征分析. 中国煤炭地质,23(12): 18-21. [Yue T X. 2011. Middle Jurassic Series coal-bearing strata characteristic analysis in Lenghu-lqe Area,Qinghai Province. Coal Geology of China,23(12): 18-21]
21 曾春林. 2009. 柴北缘西段侏罗系构造演化及其对油气成藏的控制. 中国矿业大学(北京)博士论文: 1-132. [Zeng C L. 2009. Jurassic tectonic evolution and its control over hydrocarbon accumulation in the north margin of Qaidam Basin. Doctoral Dissertation of China University of Mining and Technology(Beijing): 1-132]
22 张梦林. 2012. 柴北缘苏干湖凹陷中生界源内岩性油气藏分布规律研究. 吉林大学硕士论文: 1-76. [Zhang M L. 2012. A study on the distribution regularity of Mesozoic strata within oil source lithologic hydrocarbon reservoir of Suganhu depression in North Qaidam. Masteral Dissertation of Jilin University: 1-76]
23 郑孟林,曹春潮,李明杰,段书府,张军勇,陈元中,沈亚. 2003. 阿尔金断裂带东南缘含油气盆地群的形成演化. 地质评论,49(3): 277-286. [Zheng M L,Cao C C,Li M J,Duan S F,Zhang J Y,Chen Y Z,Shen Y. 2003. Formation and evolution of petroliferous basins on the southeast side of the Altun Fault Belt. Geological Review,49(3): 277-286]
24 朱筱敏. 2008. 沉积岩石学(第四版). 北京: 石油工业出版社,1-480. [Zhu X M. 2008. Sedimentary Petrology(4th Edition). Beijing: Petroleum Industry Press,1-480]
25 Aharon P. 2005. Redox stratification and anoxia of the early Precambrian oceans: Implications for carbon isotope excursions and oxidation events. Precambrian Research,137(3-4): 207-202.
26 Rimmer S M,Thompson J A,Goodnight S A,Robl T L. 2004. Multiple controls on the preservation of organic matter in Devonian-Mississippi-an marine black shales: Geochemical and petrographical evidence. Palaeogeography,Palaeoclimatology,Palaeoecology,215(1-2): 125-154.