Carbonate petrological characteristics and sedimentary environment of the Upper Ordovician in Bachu area, Tarim Basin
Niu Jun1, 2, 3, Huang Wenhui1, 2, 3, Wang Xin1
1 School of Energy Resources,China University of Geosciences(Beijing),Beijing 100083; 2 Key Laboratory of Marine Reservoir Evolution and Hydrocarbon Accumulation Mechanism, Education Ministry,China University of Geosciences(Beijing),Beijing 100083 3 Key Laboratory of Shale Gas Exploration and Evaluation,Ministry of Land and Resources, China University of Geosciences(Beijing),Beijing 100083
Abstract Combined with the profile measurements in the field and the indoor thin section identification,this paper conducts rock components, petrological types and sedimentary environment analysis of carbonate rocks of the Upper Ordovician Tumuxiuke Formation and Lianglitage Formation in Bachu area of Tarim Basin. The results show that the two stratigraphic units have difference in fossil assemblages,granular components and matrix types and texture. The petrological type of Tumuxiuke Formation is only micritic ̄bioclastic limestone composed of Ostracodas and Trilobites, while twelve types in Lianglitage Formation are recognized such as pelletoid-algal limestone,intraspararenite,sparry sand ̄sized intraclast limestone,algal limestone,micritic limestone with bilclasts and pelletoidal limestone. According to the analysis of petrological types and outcrop observing,the Tumuxiuke Formation carbonate rocks were mainly formed in reef-front slope, while the Lianglitage Formation carbonate rocks were formed in open platform and organic reefs,implying a relatively shallow sedimentary environment. Organic reef facies of platform margin were developed between No.Ⅰ section and No.Ⅱ section,with three algal reefs arranged in turn from south to north.
Corresponding Authors:
Huang Wenhui,born in 1961,is a professor of China University of Geosciences(Beijing). He is engaged in sedimentology. E-mail: huangwh@cugb.edu.cn.
About author: About the first author Niu Jun,born in 1986,is a Ph.D. candidate in China University of Geosciences(Beijing). She is engaged in sedimentology. E-mail: niujunmm@126.com.About the corresponding author Huang Wenhui,born in 1961,is a professor of China University of Geosciences(Beijing). He is engaged in sedimentology. E-mail: huangwh@cugb.edu.cn.通讯作者简介 黄文辉,男,1961年生,教授,主要从事沉积学研究。E-mail: huangwh@cugb.edu.cn。中图分类号:TE121.3+2 文献标志码: A
Cite this article:
Niu Jun,Huang Wenhui,Wang Xin. Carbonate petrological characteristics and sedimentary environment of the Upper Ordovician in Bachu area, Tarim Basin[J]. JOPC, 2016, 18(2): 207-219.
Niu Jun,Huang Wenhui,Wang Xin. Carbonate petrological characteristics and sedimentary environment of the Upper Ordovician in Bachu area, Tarim Basin[J]. JOPC, 2016, 18(2): 207-219.
包洪平,杨承运. 1999. 碳酸盐岩微相分析及其在岩相古地理研究中的意义. 岩相古地理,19(6):59-64.[Bao H P,Yang C Y. 1999. The carbonate microfacies analysis and its applications to sedimentary facies and palaeogeographic research. Sedimentary Facies and Palaeogeography,19(6):59-64] 蔡习尧,吴亚生,姜红霞,邹建斌. 2008. 新疆巴楚地区中上奥陶统生物礁群落古生态学. 地质学报,82(8):1046-1051.[Cai X Y,Wu Y S,Jiang H X,Zou J B. 2008. Paleoecology of Middle-Upper Ordovician reefal community in Bachu,Xinjiang,Northwestern China. Acta Geologica Sinica,82(8):1046-1051] 陈均远,林德斯冲,张俊明. 1991. 宝塔相:“时尚”于奥陶纪的一种生物沉积作用类型. Palaeoworld,1:28-29.[Chen J Y,Lin D S C,Zhang J M. 1991. Pagoda phase:“fashion” in Ordovician of a biological sedimentation type. Palaeoworld,1:28-29] 初广震,黄文辉,于炳松,樊太亮. 2010. 塔里木盆地巴楚地区T47界面生屑灰岩微相分析及成岩作用研究. 现代地质,24(2):294-300.[Chu G Z,Huang W H,Yu B S,Fan T L. 2010. Microfacies and diagenesis analysis of bioclastic limestone of T47 sequence boundary in Bachu area,Tarim Basin. Geoscience,24(2):294-300] 丁文龙,林畅松,漆立新,黄太柱,余腾孝. 2008. 塔里木盆地巴楚隆起构造格架及形成演化. 地学前缘,15(2):242-252.[Ding W L,Lin C S,Qi L X,Huang T Z,Yu T X. 2008. Structural framework and evolution of Bachu uplift in Tarim Basin. Earth Science Frontiers,15(2):242-252] 范嘉松,吴亚生. 2004. 从塔北隆起奥陶纪钙藻化石探讨奥陶纪的古环境. 微体古生物学报,21(3):251-266.[Fan J S,Wu Y S. 2004. Palaeoenvironmental analyses of Ordovician rocks in the northern uplift of Tarim Basin in terms of Calcareous algae and cyanobacteria. Acta Micropalaeontologica Sinica,21(3):251-266] 郭峰. 2011. 碳酸盐岩沉积学. 北京:石油工业出版社,177-196.[Guo F. 2011. Cabonatite Sedimentology. Beijing:Petroleum Industry Press,177-196] 贾承造. 1995. 塔里木盆地油气勘探丛书:塔里木盆地构造演化与区域构造地质. 北京:石油工业出版社,74-92.[Jia C Z. 1995. Book Series on Petroleum Exploration in the Tarim Basin:The Tectonic Evolution and Tectonic Geology of Tarim Basin. Beijing:Petroleum Industry Press,74-92] 贾承造. 1997. 中国塔里木盆地构造特征与油气. 北京:石油工业出版社,275-315.[Jia C Z. 1997. Tectonic Characteristics and Petroleum,Tarim Basin,China. Beijing:Petroleum Industry Press,275-315] 李越,黄智斌,王建坡,王志浩,薛耀松,张俊明,张元动,樊隽轩,张园园. 2009. 新疆巴楚中—晚奥陶世牙形刺生物地层和沉积环境研究. 地层学杂志,33(2):113-122.[Li Y,Huang Z B,Wang J P,Wang Z H,Xue Y S,Zhang J M,Zhang Y D,Fan J X,Zhang Y Y. 2009. Conodont biostratigraphy and sedimentology of the Middle and Upper Ordovician in Bachu,Xinjiang. Journal of Stratigraphy,33(2):113-122] 李越,袁金良,傅启龙,林天瑞. 1998. 安徽淮南下寒武统沉积环境以及碳酸盐岩微相分析. 地层学杂志,22(4):24-30.[Li Y,Yuan J L,Fu Q L,Lin T R. 1998. Environments and carbonate microfacies of Lower Cambrian in Huainan,Anhui. Journal of Stratigraphy,22(4):24-30] 林良彪,朱利东,朱莉娟. 2004. 重庆万盛中二叠统碳酸盐岩微相研究. 沉积与特提斯地质,24(1):62-69.[Lin L B,Zhu L D,Zhu L J. 2004. The Middle Permian carbonate rock microfacies in the Wansheng district,Chongqing. Sedimentary Geology and Tethyan Geology,24(1):62-69] 刘涛,章文忠,杨宝忠,李保飞,张志臣. 2014. 新疆阿合奇地区哈拉奇组、康克林组碳酸盐岩微相特征和沉积环境. 地质通报,33(1):60-70.[Liu T,Zhang W Z,Yang B Z,Li B F,Zhang Z C. 2014. Carbonate microfacies characteristics and sedimentary environment of Karaqi Formation and Kangkelin Formation in Akqi area,Xinjiang. Geological Bulletin of China,33(1):60-70] 吕钊炜,张宁,夏文臣. 2009. 山东省长清县中寒武统张夏组的微相组分、微相类型及沉积相分析. 地质科技情报,28(5):47-52.[Lü Z W,Zhang N,Xia W C. 2009. Types and composition of carbonate microfacies and analysis on sedimentary facies of Middle Cambrian Zhangxia Formation in Changqing,Shandong Province. Geological Science and Technology Information,28(5):47-52] 马伯永,王训练,王根厚,徐红燕,李尚林. 2009. 青藏高原羌塘盆地东缘贡日地区中侏罗统布曲组碳酸盐岩微相与沉积环境. 地质通报,28(5):609-617.[Ma B Y,Wang X L,Wang G H,Xu H Y,Li S L. 2009. Carbonate microfacies and sedimentary environment of the Middle Jurassic Buqu Formation in the Gongri area,eastern part of the Qiangtang basin,Tibet,China. Geological Bulletin of China,28(5):609-617] 邵龙义,何宏,彭苏萍,李瑞军. 2002. 塔里木盆地巴楚隆起寒武系及奥陶系白云岩类型及形成机理. 古地理学报,4(2):19-30.[Shao L Y, He H, Peng S P, Li R J. 2002. Types and origin of dolostones of the Cambrian and Ordovician of Bachu uplift area in Tarim Basin. Journal of Palaeogeography (Chinese Edition), 4(2):19-30] 沈安江,郑剑锋,顾乔元. 2008. 塔里木盆地巴楚地区中奥陶统一间房组露头礁滩复合体储集层地质建模及其对塔中地区油气勘探的启示. 地质通报,27(1):137-148.[Shen A J,Zheng J F,Gu Q Y. 2008. Reservoir geological models of reef complexes in the Middle Ordovician Yijianfang Formation in the Bachu area,Tarim Basin,and its implications for hydrocarbon exploration in the Tazhong area,Xinjiang,China. Geological Bulletin of China,27(1):137-148] 施贵军,杨湘宁,刘家润,孙历. 1999. 贵州盘县火铺茅口组微相组合及其沉积环境研究. 高校地质学报,5(4):448-458.[Shi G J,Yang X N,Liu J R,Sun L. 1999. Study on assemblages of microfacies and sedimentary environment of the Maokou formation in Huopu area,Panxian,Guizhou Province. Geological Journal of China Universities,5(4):448-458] 威尔逊 J L. 1981. 地质历史中的碳酸盐岩相. 冯增昭译. 北京:地质出版社,53-57.[Wilson J L. 1981. The carbonate facies in Geological History. Beijing:Geological Publishing House,53-57] 张海军,王训练,夏国英,王雷,李尚林. 2003. 陕西镇安西口石炭系/二叠系界线剖面碳酸盐岩微相特征与沉积环境的研究. 现代地质,17(4):387-394.[Zhang H J,Wang X L,Xia G Y,Wang L,Li S L. 2003. The carbonate microfacies and sedimentary environments of the Carboniferous-Permian boundary section at Xikou,Zhenan county,Shananxi Province,China. Geoscience,17(4):387-394] 张师本,高琴琴. 1992. 塔里木盆地震旦纪至二叠纪地层古生物(Ⅱ)柯坪巴楚地区分册. 北京:石油工业出版社,31-61.[Zhang S B,Gao Q Q. 1992. Tarim Basin Sinian Period to the Permian Stratigraphic Paleontology (Ⅱ) Keping Bachu,Area. Beijing: Petroleum Industry Press,31-61] 钟怡江,侯梅生,夏杰,林良彪,龙宇. 2014. 重庆石柱中二叠统栖霞组和茅口组沉积微相. 成都理工大学学报(自然科学版),41(4):458-467.[Zhong Y J,Hou M S,Xia J,Lin L B,Long Y. 2014. Microfacies of Qixia Formation and Maokou Formation in Shizhu,Chongqing,China. Journal of Chengdu University of Technology(Science & Technology Edition),41(4):458-467] 周志澄,罗辉,祝幼华,许波,蔡华伟,陈金华. 2012. 四川广安谢家槽下三叠统碳酸盐微相及沉积环境. 古生物学报,51(1):114-126.[Zhou Z C,Luo H,Zhu Y H,Xu B,Cai H W,Chen J H. 2012. Early Triassic carbonate microfacies and sedimentary environments of the Xiejiacao section at Guangan,Sichuan. Acta Palaeontologica Sinica,51(1):114-126] 周志毅. 2001. 塔里木盆地各纪地层. 北京:科学出版社,49-53.[Zhou Z Y. 2001. Stratigraphy of the Tarim Basin and Adjacent Areas. Beijing:Science Press,49-53]
Brown J S. 1943. Suggested use of the word microfacies. Economic Geology,38(4):325-325. Flǜgle E. 1982. Microfacies Analysis of Limestones. Berlin/Heidelberg/New York: Springer ̄Verlag, 1-633. Flǜgle E. 2004. Microfacies of Carbonate Rocks: Analysis, Interpretation and Application. Berlin/Heidelberg/New York: Springer ̄Verlag, 1-724. Geel T. 2000. Recognition of stratigraphic sequences in carbonate platform and slope deposits:Empirical models based on microfacies analysis of Palaeogene deposits in southeastern Spain. Palaeogeography,Palaeoclimatology,Palaeoecology,155(3):211-238. Maliva R G,Dickson J A D. 1992. Microfacies and diagenetic controls of porosity in Cretaceous/Tertiary chalks,Eldfisk Field,Norwegian North Sea. American Association of Petroleum Geologists Bulletin,76(11):1825-1838. Palma R M. 1996. Analysis of carbonate microfacies in the Chachao Formation(cretaceous),Barda Blanca-malargüe,Mendoza Province-Argentina:A cluster analytic approach. Carbonates and Evaporites,11(2):182-194. Raspini A. 1998. Microfacies analysis of shallow water carbonates and evidence of hierarchically organized cycles: Aptian of Monte Tobenna,Southern Apennines,Italy. Cretaceous Research,19(2):197-223. Sadooni F N. 1993. Stratigraphic sequence,microfacies,and petroleum prospects of the Yamama Formation,Lower Cretaceous,Southern Iraq. AAPG Bulletin,77(11):1971-1988.张西娟
