塔里木盆地新元古代裂陷群结构构造及其形成动力学

详细信息    查看全文 | 推荐本文 |

英文篇名：Structural architecture of neoproterozoicrifting depression groups in the Tarim Basin and their formation dynamics 作者：何碧竹 ; 焦存礼 ; 黄太柱 ; 周新桂 ; 蔡志慧 ; 曹自成 ; 姜忠正 ; 崔军文 ; 余卓颖 ; 陈威威 ; 刘若涵 ; 贠晓瑞 ; 郝光明 英文作者：He B;Jiao C;Huang T;Zhou X;Cai Z;Cao Z;Jiang Z;Cui J;Yu Z;Chen W;Liu R;Yun X;Hao G; 关键词：裂陷群 ; 正断层 ; 拉张及顺时针旋转 ; 大陆裂谷及板内断陷 ; 南华纪-晚震旦世 ; 塔里木盆地 中文刊名：中国科学:地球科学 英文刊名：Scientia Sinica(Terrae) 机构：大陆构造与动力学重点实验室中国地质科学院地质研究所;中国石油化工股份有限公司石油勘探开发研究院;中国石化西北油田分公司勘探开发研究院;中国地质调查局油气资源调查中心; 出版日期：2019-01-23 08:54 出版单位：中国科学:地球科学 年：2019 期：04 基金：国家自然科学基金项目(批准号:41872121、41630207);; 中国地质科学院基本科研业务项目(编号:JYYWF20180903、JYYWF20182103);; 中石化西北分公司科研项目(编号:KY2013-S-024);; 中国地质调查局项目(编号:12120115002101、DD20160022、DD20160169、12120115026901)资助 语种：中文; 页：29-49 页数：21 CN：11-5842/P ISSN：1674-7240 分类号：P618.13

摘要

塔里木盆地新元古界的构造属性及结构构造长期以来存在争议,也是深层研究的重点及难题.通过区域探井和地震资料联合解释,结合航磁资料综合研究发现,塔里木盆地深层存在近20个大小不等的南华纪-晚震旦世裂陷.裂陷发育在前寒武纪变质结晶基底上,与上覆显生宙盖层构造格局迥异.受正断层控制呈半地堑、不对称地堑及垒堑相间的构造样式,从东北到西南可分为NWW、NEE、NW向展布的三个裂陷群,地层最大厚度可达4100m.从南华纪到震旦纪主要断裂继承性活动,断陷沉降中心沿断裂向东迁移,震旦纪末期至早寒武世断裂活动减弱至停止.断裂走向及沉降中心展布表明,新元古代塔里木陆块不同部位分别处于NNE-SSW、NNW-SSE向拉张古应力场(相对现今),并伴有顺时针旋扭作用.根据同沉积断裂的活动性差异、岩浆活动、裂陷充填沉积物及与航磁异常的协调性分析,裂陷的构造属性多以大陆裂谷及陆内断陷为主.裂陷的主要发育期在0.8～0.61Ga,其形成与南阿尔金-西昆仑洋、南天山洋的初始打开为响应,且是Rodinia超大陆主要裂解期的产物.
        

引文

车自成,孙勇.1996.阿尔金麻粒岩相杂岩的时代及塔里木盆地的基底.中国区域地质,15:51-57
    邓兴梁,舒良树,朱文斌,马东升,王博.2008.新疆兴地断裂带前寒武纪构造-岩浆-变形作用特征及其年龄.岩石学报,24:2800-2808
    高林志,郭宪璞,丁孝忠,宗文明,高振家,张传恒,王自强.2013.中国塔里木板块南华纪成冰事件及其地层对比.地球学报,34:39-57
    高林志,王宗起,许志琴,杨经绥,张维.2010.塔里木盆地库鲁克塔格地区新元古代冰碛岩锆石SHRIMP U-Pb年龄新证据.地质通报,29:205-213
    高振家,陈晋镳,陆松年.1993.新疆北部前寒武系,前寒武纪地质第6号.北京:地质出版社.1-171
    高振家,朱诚顺.1984.新疆前寒武纪地质.乌鲁木齐:新疆人民出版社.45
    郭召杰,张志诚,贾承造.2000.塔里木克拉通前寒武基底格架.中国科学D辑:地球科学,30:568-575
    郭召杰,张志诚,王建君.1998.阿尔金山北缘蛇绿岩带的Sm-Nd等时线年龄及其大地构造意义.科学通报,43:1981-1984
    何碧竹.2009.塔里木盆地构造作用与油气聚集.博士后研究工作报告.北京:中国地质科学院.185
    何碧竹,焦存礼,蔡志慧,张淼,高爱荣.2011.塔里木盆地中部航磁异常带新解译.中国地质,38:961-965
    何登发,李德生.1996.塔里木盆地构造演化与油气聚集.北京:地质出版社.56
    何登发,袁航,李涤,雷刚林,樊春,常秋生,叶茂林.2011.吐格尔明背斜核部花岗岩的年代学、地球化学与构造环境及其对塔里木地块北缘古生代伸展聚敛旋回的揭示.岩石学报,27:133-146
    何秀彬,徐备,袁志云.2007.新疆柯坪地区新元古代晚期地层碳同位素组成及其对比.科学通报,52:107-113
    侯遵泽,杨文采.2011.塔里木盆地多尺度重力场反演与密度结构.中国科学D辑:地球科学,41:29-39
    胡霭琴,韦刚建.2006.塔里木盆地北缘新太古代辛格尔灰色片麻岩形成时代问题.地质学报,80:126-133
    胡霭琴,韦刚健,江博明,张积斌,邓文峰,陈林丽.2010.天山0.9Ga新元古代花岗岩SHRIMP锆石U-Pb年龄及其构造意义.地球化学,39:197-212
    贾承造.2004.塔里木盆地石油地质与勘探丛书--塔里木盆地板块构造与大陆动力学.北京:石油工业出版社.202
    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.165
    贾承造.2009.环青藏高原巨型盆山体系构造与塔里木盆地油气分布规律.大地构造与成矿学,33:1-9
    贾承造,张师本,吴绍祖.2004.塔里木盆地及周边地层.北京:科学出版社.516
    康建威,牟传龙,周恳恳,王启宇,陈小炜,梁薇,葛祥英.2016.塔里木盆地北缘阿克苏地区震旦系露头层序地层研究.沉积与特提斯地质,36:47-54
    康玉柱.2012.中国三大类型盆地油气分布规律.新疆石油地质,33:635-636
    李惠民,陆松年,郑建康,于海峰,赵风清,李怀坤,左义成.2001.阿尔金东段花岗片麻岩中3.6Ga锆石的地质意义.岩石矿物地球化学通讯.20:259-262
    李曰俊,贾承造,胡世玲,黄智斌,曾强,谭泽金.1999.塔里木盆地瓦基里塔格辉长岩40Ar-39Ar年龄及其意义.岩石学报,15:594-599
    李曰俊,宋文杰,吴根耀,王艺芬,李宇平,郑多明.2005.塔里木盆地中部隐伏的晋宁期花岗闪长岩和闪长岩.中国科学D辑,35:97-104
    李曰俊,孙龙德,胡世玲,宋文杰,王国林,谭泽金.2003.塔里木盆地塔参1井底部花岗闪长岩的40Ar-39Ar年代学研究.岩石学报,19:530-536
    李曰俊,吴根耀,孟庆龙,杨海军,韩剑发,李新生,董立胜.2008.塔里木盆地中央地区的断裂系统:几何学、运动学和动力学背景.地质科学,43:82-118
    刘和甫,李晓清,刘立群,侯高文,边海军.2005.伸展构造与裂谷盆地成藏区带.石油与天然气地质,26:537-552
    陆松年,于海峰,李怀坤,等.2006.中国前寒武纪重大地质问题研究--中国西部前寒武纪重点地质事件群及全球构造意义.北京:地质出版社.197
    陆松年,袁桂邦.2003.阿尔金山阿克塔什塔格早前寒武纪岩浆活动的年代学证据.地质学报,77:61-68
    罗金海,雷刚林,刘良,肖中尧,魏红兴,车自成.2009.阿尔金构造带对塔东南油气地质条件的制约.大地构造与成矿学,33:76-85
    罗志文,徐备,何金有.2016.新疆库鲁克塔格地区特瑞艾肯冰期时代的碎屑锆石年代学制约.北京大学学报(自然科学版),52:467-474
    焦方正.2017.塔里木盆地顺托果勒地区北东向走滑断裂带的油气勘探意义.石油天然气地质,38:831-839
    钱一雄,杜永明,陈代钊,尤东华,张军涛,陈跃,刘忠宝.2014.塔里木盆地肖尔布拉克剖面奇格布拉克组层序界面与沉积相研究.石油实验地质,36:1-8
    任建业,胡德胜,阳怀忠,尹新义,李朋.2011.塔中隆起带断裂系统及其对碳酸盐岩台地的控制.中国地质,38:935-944
    汤良杰,贾承造.2007.塔里木叠合盆地构造解析和应力场分析/中国典型叠合盆地油气形成富集与分布预测丛书.科学出版社.1-149
    王超,刘良,车自成,陈丹玲,张安达,罗金海.2006.阿尔金南缘榴辉岩带中花岗片麻岩的时代及构造环境探讨.高校地质学报,12:74-82
    王飞,王博,舒良树.2010.塔里木西北缘阿克苏地区大陆拉斑玄武岩对新元古代裂解事件的制约.岩石学报,26:547-558
    王福同,宋志齐,吴绍祖.2006.新疆维吾尔自治区古地理及地质生态图集.北京:地质出版社:80
    王宜昌,杨辉,王小牧,郑彬卿.1994.塔克拉玛干前震旦纪古裂谷及其含油气远景.新疆石油地质,15:191-200
    魏永峰,李建兵,杜红星,邓泽锦,康江伟.2010.西南天山南缘震旦纪后碰撞过铝花岗岩的地学意义.新疆地质,28:242-246
    邬光辉,张承泽,汪海,刘玉魁,李建军.2009.塔里木盆地中部塔参1井花岗闪长岩的锆石SHRIMP U-Pb年龄.地质通报,28:568-571
    吴根耀,李曰俊,王国林,郑威,罗俊成,孟庆龙.2006.新疆西部巴楚地区晋宁期的洋岛火山岩.现代地质,20:361-369
    吴林,管树巍,任荣,王晓波,杨海军,靳久强,朱光有.2016.前寒武纪沉积盆地发育特征与深层烃源岩分布--以塔里木新元古代盆地与下寒武统烃源岩为例.石油勘探与开发,43:905-915
    肖序常,汤耀庆,李锦轶,冯益民,朱宝清.1990.试论新疆北部大地构造演化.新疆地质科学,第一辑:47-68
    新疆维吾尔自治区地质矿产局.1993.新疆维吾尔自治区区域地质志.北京:地质出版社.562
    徐备,寇晓威,宋彪,卫巍,王宇.2008.塔里木板块上元古界火山岩SHRIMP定年及其对新元古代冰期时代的制约.岩石学报,24:2857-2865
    许炳如.1997.根据航磁解释的塔里木盆地基岩分布.西安石油学院学报,12:8-11
    许志琴,李思田,张建新,杨经绥,何碧竹,李海兵,林畅松,蔡志慧.2011.塔里木地块与古亚洲/特提斯构造体系的对接.岩石学报,27:1-22
    闫磊,李明,潘文庆.2014.塔里木盆地二叠纪火成岩分布特征--基于高精度航磁资料.地球物理学进展,29:1843-1848
    杨文采,王家林,钟慧智,陈冰.2012.塔里木盆地航磁场分析与磁源体结构.地球物理学报,55:1278-1287
    杨树锋,陈立峰,肖中尧,罗俊成,陈汉林,王步清,程晓敢,廖林.2009.塔里木盆地东南缘新生代断裂系统.大地构造与成矿学,33:33-37
    殷秀华,黎益仕,刘占坡.1998.塔里木盆地重力场与地壳上地幔结构.地震地质,20:370-378
    袁学诚.1996.中国地球物理图集.北京:地质出版社.200
    张传林,李怀坤,王洪燕.2012.塔里木地块前寒武纪地质研究进展评述.地质论评,58:923-936
    张传林,陆松年,于海峰,叶海敏.2007.青藏高原北缘西昆仑造山带构造演化:来自锆石SHRIMP及LA-ICP-MS测年的证据.中国科学D辑:地球科学,37:145-154
    张传林,赵宇,郭坤一,董永观,王爱国.2003.塔里木西南中元古带变质基性火山岩地球化学特征--古塔里木板块中元古带裂解的证据.地球科学,28:47-53
    张光亚,刘伟,张磊,于炳松,李洪辉,张宝民,王黎栋.2015.塔里木盆地克拉通寒武-奥陶纪原型盆地、岩相古地理与油气.地学前缘,22:243-250
    张建新,李怀坤,孟繁聪,相振群,于胜尧,李金平.2011.塔里木盆地东南缘(阿尔金山)“变质基底”记录的多期构造热事件:锆石U-Pb年代学的制约.岩石学报,27:23-46
    张建新,孟繁聪,于胜尧,陈文,陈松永.2007.北阿尔金HP/LT蓝片岩和榴辉岩的Ar-Ar年代学及其区域构造意义.中国地质,34:558-564
    张建新,于胜尧,李云帅,喻星星,林宜慧,毛小红.2015.原特提斯洋的俯冲、增生及闭合:阿尔金-祁连-柴北缘造山系早古生代增生/碰撞造山作用.岩石学报,31:3531-3554
    赵俊猛,程宏岗,裴顺平,刘宏兵,张健狮,刘宝锋.2008.塔里木盆地北缘的深部结构.科学通报,53:946-955
    郑碧海,朱文斌,舒良树,张志勇,于俊杰,黄文涛.2008.阿克苏前寒武纪蓝片岩原岩产出的大地构造背景.岩石学报,24:2839-2848
    周肖贝,李江海,王洪浩,李文山,程雅琳.2015.塔里木盆地南华震旦纪盆地背景及早期成盆构造背景.地学前缘,22:263-272
    朱文斌,葛荣峰,舒良树,郑碧海.2017.塔里木克拉通北缘前寒武纪构造岩浆事件与地壳演化/大陆动力.北京:科学出版社.437
    宗文明,高林志,丁孝忠,庞维华.2010.塔里木盆地西南缘南华纪冰碛岩特征与地层对比.中国地质,37:1183-1190
    Allen P A,Armitage J J.2012.Cratonic basins.In:Busby C,Azor A,eds.Chapter 30 of Tectonics of Sedimentary Basins:Recent Advances.London:Blackwell Publishing Ltd.602-620
    Ge R F,Zhu W B,Zheng B H,Wu H L,He J W,Zhu X Q.2012.Early Pan-African magmatism in the Tarim Craton:Insights from zircon U-Pb-Lu-Hf isotope and geochemistry of granitoids in the Korla area,NW China.Precambrian Res,212-213:117-138
    Ge R F,Zhu W B,Wu L,Zheng B H,He J W.2013.Timing and mechanisms of multiple episodes of migmatization in the Korla complex,northern Tarim Craton,NW China:Constraints from zircon U-Pb-Lu-Hf isotopes and implications for crustal growth.Precambrian Res,231:136-156
    Gehrels G E,Yin A,Wang X F.2003a.Magmatic history of the northeastern Tibetan Plateau.J Geophys Res,108:2423
    Gehrels G E,Yin A,Wang X F.2003b.Detrital-zircon geochronology of the northeastern Tibetan plateau.Geol Soc Am Bull,115:881-896
    Guiraud R,Bosworth W,Thierry J,Delplanque A.2005.Phanerozoic geological evolution of Northern and Central Africa:An overview.JAfrican Earth Sci,43:83-143
    Guo Z J,Yin A,Robinson A,Jia C Z.2005.Geochronology and geochemistry of deep-drill-core samples from the basement of the central Tarim basin.J Asian Earth Sci,25:45-56
    He B Z,Jiao C L,Xu Z Q,Cai Z H,Zhang J X,Liu S L,Li H B,Chen W W,Yu Z Y.2016.The paleotectonic and paleogeography reconstructions of the Tarim Basin and its adjacent areas(NWChina)during the late Early and Middle Paleozoic.Gondwana Res,30:191-206
    He Z Y,Zhang Z M,Zong K Q,Wang W,Santosh M.2012.Neoproterozoic granulites from the northeastern margin of the Tarim Craton:Petrology,zircon U-Pb ages and implications for the Rodinia assembly.Precambrian Res,212-213:21-33
    He J W,Zhu W B,Ge R F,Zheng B H,Wu H L.2014.Detrital zircon U-Pb ages and Hf isotopes of Neoproterozoic strata in the Aksu area,northwestern Tarim Craton:Implications for supercontinent reconstruction and crustal evolution.Precambrian Res,254:194-209
    Ingersoll R V.2012.Tectonics of sedimentary basins,with revised nomenclature.In:Cathy B,Antonio Azor,eds.Tectonics of Sedimentary Basins:Recent Advances.Blackwell Publishing Ltd.3-43
    Li S Z,Zhao S J,Liu X,Cao H H,Yu S,Li X Y,Somerville I,Yu S Y,Suo Y H.2018.Closure of the Proto-Tethys Ocean and Early Paleozoic amalgamation of microcontinental blocks in East Asia.Earth-Sci Rev,186:37-75
    Li Z X,Evans D A D,Halverson G P.2013.Neoproterozoic glaciations in a revised global palaeogeography from the breakup of Rodinia to the assembly of Gondwanaland.Sediment Geol,294:219-232
    Li Z X,Bogdanova S V,Collins A S,Davidson A,De Waele B,Ernst RE,Fitzsimons I C W,Fuck R A,Gladkochub D P,Jacobs J,Karlstrom K E,Lu S,Natapov L M,Pease V,Pisarevsky S A,Thrane K,Vernikovsky V.2008.Assembly,configuration,and break-up history of Rodinia:A synthesis.Precambrian Res,160:179-210
    Li Z X,Li X H,Kinny P D,Wang J,Zhang S,Zhou H.2003.Geochronology of Neoproterozoic syn-rift magmatism in the Yangtze Craton,South China and correlations with other continents:Evidence for a mantle superplume that broke up Rodinia.Precambrian Res,122:85-109
    Li Z X,Zhong S.2009.Supercontinent-superplume coupling,true polar wander and plume mobility:Plate dominance in whole-mantle tectonics.Phys Earth Planet Inter,176:143-156
    Liu L,Wang C,Cao Y T,Chen D L,Kang L,Yang W Q,Zhu X H.2012.Geochronology of multi-stage metamorphic events:Constraints on episodic zircon growth from the UHP eclogite in the South Altyn,NW China.Lithos,136-139:10-26
    Long X P,Yuan C,Sun M,Kroner A,Zhao G C,Wilde S,Hu A Q.2011.Reworking of the Tarim Craton by underplating of mantle plume-derived magmas:Evidence from Neoproterozoic granitoids in the Kuluketage area,NW China.Precambrian Res,187:1-14
    Long X P,Yuan C,Sun M,Zhao G C,Xiao W J,Wang Y J,Yang Y H,Hu A Q.2010.Archean crustal evolution of the northern Tarim craton,NW China:Zircon U-Pb and Hf isotopic constraints.Precambrian Res,180:272-284
    Lu S N,Li H K,Zhang C L,Niu G H.2008.Geological and geochronological evidence for the Precambrian evolution of the Tarim craton and surrounding continental fragments.Precambrian Res,160:94-107
    Nakajima T,Maruyama S,Uchiumi S,Liou J G,Wang X,Xiao X,Graham S A.1990.Evidence for late Proterozoic subduction from700-Myr-old blueschists in China.Nature,346:263-265
    Persaud P,Tan E,Contreras J,Lavier L.2017.A bottom-driven mechanism for distributed faulting in the Gulf of California rift.Tectonophysics,719-720:51-65
    Powell C M A,Preiss W V,Gatehouse C G,Krapez B,Li Z X.1994.South Australian record of a Rodinian epicontinental basin and its mid-neoproterozoic breakup(~700 Ma)to form the Palaeo-Pacific Ocean.Tectonophysics,237:113-140
    Rogers J J W,Santosh M.2002.Configuration of Columbia,a Mesoproterozoic supercontinent.Gondwana Res,5:5-22
    Safonova I Y,Simonov V A,Buslov M M,Ota T,Maruyama S.2008.Neoproterozoic basalts of the Paleo-Asian Ocean(Kurai accretionary zone,Gorny Altai,Russia):Geochemistry,petrogenesis,and geodynamics.Rus Geol Geophys,49:254-271
    Safonova I Y,Santosh M.2014.Accretionary complexes in the AsiaPacific region:Tracing archives of ocean plate stratigraphy and tracking mantle plumes.Gondwana Res,25:126-158
    Santosh M,Maruyama S,Yamamoto S.2009.The making and breaking of supercontinents:Some speculations based on superplumes,super downwelling and the role of tectosphere.Gondwana Res,15:324-341
    Shu L S,Deng X L,Zhu W B,Ma D S,Xiao W J.2011.Precambrian tectonic evolution of the Tarim Block,NW China:New geochronological insights from the Quruqtagh domain.J Asian Earth Sci,42:774-790
    Song S G,Su L,Li X H,Zhang G B,Niu Y L,Zhang L F.2010.Tracing the 850-Ma continental flood basalts from a piece of subducted continental crust in the North Qaidam UHPM belt,NWChina.Precambrian Res,183:805-816
    Wang B,Shu L S,Liu H S,Gong H J,Ma Y Z,Mu L X,Zhong L L.2014.First evidence for ca.780 Ma intra-plate magmatism and its implications for Neoproterozoic rifting of the North Yili Block and tectonic origin of the continental blocks in SW of Central Asia.Precambrian Res,254:258-272
    Wang C,Liu L,Yang W Q,Zhu X H,Cao Y T,Kang L,Chen S F,Li RS,He S P.2013.Provenance and ages of the Altyn Complex in Altyn Tagh:Implications for the early Neoproterozoic evolution of northwestern China.Precambrian Res,230:193-208
    Xu B,Jiang P,Zheng H F,Zou H B,Zhang L F,Liu D Y.2005.U-Pb zircon geochronology and geochemistry of Neoproterozoic volcanic rocks in the Tarim Block of northwest China:Implications for the breakup of Rodinia supercontinent and Neoproterozoic glaciations.Precambrian Res,136:107-123
    Xu B,Xiao S H,Zou H B,Chen Y,Li Z X,Song B,Liu D Y,Zhou CM,Yuan X L.2009.SHRIMP zircon U-Pb age constraints on Neoproterozoic Quruqtagh diamictites in NW China.Precambrian Res,168:247-258
    Xu B,Zou H B,Chen Y,He J,Wang Y.2013.The Sugetbrak basalts from northwestern Tarim Block of northwest China:Geochronology,geochemistry and implications for Rodinia breakup and ice age in the Late Neoproterozoic.Precambrian Res,236:214-226
    Wu G H,Chen Z Y,QuT L,Xu Y L,Zhang C Z.2012.SHRIMP zircon age of the high aeromagnetic anomaly zone in central Tarim Basin and its geological implications.Natur Sci,4:1-4
    Xu Z Q,He B Z,Zhang C L,Zhang J X,Wang Z M,Cai Z H.2013.Tectonic framework and crustal evolution of the Precambrian basement of the Tarim Block in NW China:New geochronological evidence from deep drilling samples.Precambrian Res,235:150-162
    Yong W J,Zhang L F,Hall C M,Mukasa S B,Essene E J.2013.The40Ar/39Ar and Rb-Sr chronology of the Precambrian Aksu blueschists in western China.J Asian Earth Sci,63:197-205
    Zhai M G,Santosh M.2011.The early Precambrian odyssey of the North China Craton:A synoptic overview.Gondwana Res,20:6-25
    Zhang C L,Li Z X,Li X H,Ye H M.2009.Neoproterozoic mafic dyke swarms at the northern margin of the Tarim Block,NW China:Age,geochemistry,petrogenesis and tectonic implications.J Asian Earth Sci,35:167-179
    Zhang C L,Li Z X,Li X H,Ye H,Wang A,Guo K Y.2006.Neoproterozoic bimodal intrusive complex in the Southwestern Tarim Block,Northwest China:Age,geochemistry,and implications for the rifting of Rodinia.Int Geol Rev,48:112-128
    Zhang C L,Li X H,Li Z X,Lu S N,Ye H M,Li H M.2007a.Neoproterozoic ultramafic-mafic-carbonatite complex and granitoids in Quruqtagh of northeastern Tarim Block,western China:Geochronology,geochemistry and tectonic implications.Precambrian Res,152:149-169
    Zhang C L,Li Z X,Li X H,Yu H F,Ye H M.2007b.An early Paleoproterozoic high-K intrusive complex in southwestern Tarim Block,NW China:Age,geochemistry,and tectonic implications.Gondwana Res,12:101-112
    Zhang C L,Yang D S,Wang H Y,Dong Y G,Ye H M.2010.Neoproterozoic mafic dykes and basalts in the southern margin of Tarim,Northwest China:Age,geochemistry and geodynamic implications.Acta Geol Sin-Engl Ed,84:549-562
    Zhang C L,Ye X T,Zou H B,Chen X Y.2016.Neoproterozoic sedimentary basin evolution in southwestern Tarim,NW China:New evidence from field observations,detrital zircon U-Pb ages and Hf isotope compositions.Precambrian Res,280:31-45
    Zhang C L,Zou H B,Wang H Y,Li H K,Ye H M.2012.Multiple phases of the Neoproterozoic igneous activity in Quruqtagh of the northeastern Tarim Block,NW China:Interaction between plate subduction and mantle plume?Precambrian Res,222-223:488-502
    Zhang J X,Gong J H,Yu S Y.2012.c.1.85 Ga HP granulite-facies metamorphism in the Dunhuang block of the Tarim Craton,NWChina:Evidence from U-Pb zircon dating of mafic granulites.JGeol Soc,169:511-514
    Zhang J X,Mattinson C G,Meng F C,Wan Y S.2005a.An Early Palaeozoic HP/HT granulite-garnet peridotite association in the south Altyn Tagh,NW China:P-T history and U-Pb geochronology.J Metamorph Geol,23:491-510
    Zhang J X,Yang J S,Mattinson C G,Xu Z Q,Meng F C,Shi R D.2005b.Two contrasting eclogite cooling histories,North Qaidam HP/UHP terrane,western China:Petrological and isotopic constraints.Lithos,84:51-76
    Zhang J X,Yu S Y,Gong J H,Li H K,Hou K J.2013.The latest Neoarchean-Paleoproterozoic evolution of the Dunhuang block,eastern Tarim craton,northwestern China:Evidence from zircon U-Pb dating and Hf isotopic analyses.Precambrian Res,226:21-42
    Zhang Y L,Wang Z Q,Yan Z,Wang T.2013.Neoproterozoic volcanic rocks in the Southern Quruqtagh of Northwest China:Geochemistry,zircon geochronology and tectonic implications.Acta Geol Sin-Engl Ed,87:118-130
    Zhang Z C,Kang J L,Kusky T,Santosh M,Huang H,Zhang D Y,Zhu J.2012.Geochronology,geochemistry and petrogenesis of Neoproterozoic basalts from Sugetbrak,northwest Tarim block,China:Implications for the onset of Rodinia supercontinent breakup.Precambrian Res,220-221:158-176
    Zhao G C,Cawood P A.2012.Precambrian geology of China.Precambrian Res,222-223:13-54
    Zhao G C,Cawood P A,Wilde S A,Sun M.2002.Review of global2.1-1.8 Ga orogens:Implications for a pre-Rodinia supercontinent.Earth-Sci Rev,59:125-162
    Zhao G C,Sun M,Wilde S A,Li S Z.2004.A Paleo-Mesoproterozoic supercontinent:Assembly,growth and breakup.Earth-Sci Rev,67:91-123
    Zhu W B,Zhang Z Z,Shu L S,Lu H F,Sun J B,Yang W.2008.SHRIMP U-Pb zircon geochronology of Neoproterozoic Korla mafic dykes in the northern Tarim Block,NW China:Implications for the long-lasting breakup process of Rodinia.J Geol Soc,165:887-890
    Zhu W B,Zheng B,Shu L,Ma D,Wu H,Li Y,Huang W,Yu J.2011.Neoproterozoic tectonic evolution of the Precambrian Aksu blueschist terrane,northwestern Tarim,China:Insights from LA-ICP-MS zircon U-Pb ages and geochemical data.Precambrian Res,185:215-230
    1)何碧竹,崔军文,蔡志慧,李广伟,马绪宣,陈威威,余卓颖. 2016.巴楚-塔中隆起构造演化对油气成藏的控制.中石化西北油田分公司科研项目