[1]林 伟,许德如,侯泉林,等.中国大陆中东部早白垩世伸展穹隆构造与多金属成矿[J].大地构造与成矿学,2019,(43卷03):409-430.[doi:10.16539/j.ddgzyckx.2019.03.004]
 LIN Wei,XU Deru,HOU Quanlin,et al.Early Cretaceous Extensional Dome and Related Polymetallic Mineralization in the Central and Eastern China[J].Geotectonica et Metallogenia,2019,(43卷03):409-430.[doi:10.16539/j.ddgzyckx.2019.03.004]
点击复制

中国大陆中东部早白垩世伸展穹隆构造与多金属成矿
分享到:

《大地构造与成矿学》[ISSN:ISSN 1001-1552/CN:CN 44-1595/P]

卷:
期数:
2019年43卷03期
页码:
409-430
栏目:
中国大陆(燕山期)构造成矿作用专辑
出版日期:
2019-06-25

文章信息/Info

Title:
Early Cretaceous Extensional Dome and Related Polymetallic Mineralization in the Central and Eastern China
文章编号:
1001-1552(2019)03-0409-022
作者:
林 伟12 许德如34 侯泉林2 李双建5 孟令通12 任志恒12 邱华标12 褚 杨12
1.中国科学院 地质与地球物理研究所, 岩石圈演化国家重点实验室, 中国科学院 地球科学研究院, 北京 100029; 2.中国科学院大学 地球与行星科学学院, 北京 100049; 3.东华理工大学 核资源与环境国家重点 实验室, 江西 南昌 330013; 4.中国科学院 广州地球化学研究所 中国科学院矿物学与成矿学重点实验室, 广东 广州 510640; 5.中国石油化工集团公司 石油勘探开发研究院, 北京 100083
Author(s):
LIN Wei12 XU Deru34 HOU Quanlin2 LI Shuangjian5 MENG Lingtong12 REN Zhiheng12 QIU Huabiao12 and CHU Yang12
1. State Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Sciences/Institution of Earth Science, Chinese Academy of Science, Beijing 100029, China; 2. College of Earth and Planetary Sciences, University of Chinese Academy of Sciences, Beijing 100049, China; 3. State Key Laboratory of Nuclear Resources and Environment, East China Technology of Technology, Nanchang 330013, Jiangxi, China; 4. CAS Key Laboratory of Mineralogy and Metallogeny, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640, Guangdong, China; 5. SINOPEC Research Institute of Petroleum Exploration and Development, Beijing 100083, China
关键词:
伸展穹隆 对称拆离 早白垩世等时折返 中国中东部伸展构造 大规模成矿
Keywords:
extensional dome symmetric extension tectonic narrow temporal of the exhumation Early Cretaceous extensional tectonics central and eastern China massive polymetallic mineralization belt
分类号:
P542, P612
DOI:
10.16539/j.ddgzyckx.2019.03.004
文献标志码:
A
摘要:
中国中东部晚中生代伸展构造十分显著, 表现为大量发育伸展成因的穹隆构造和地堑-半地堑盆地。对这些伸展穹隆系统的分析、归纳和总结, 将中国中东部早白垩世伸展构造发育区划分为: 华北西部带、华北东部带、华北南缘及秦岭-大别带和华南内陆带。区域上, 这些伸展构造均具有NW-SE的伸展方向, 与蒙古及俄罗斯泛贝加尔-鄂霍茨克带一同构成了全球最大的大陆岩石圈伸展地区。这些伸展构造使中下地壳的结构发生了强烈的改造, 并使一些中深变质岩出露到地表。在华北地区, 这期伸展构造具有对称性的特点, 即华北西部带向NW拆离, 相关的岩石变形大体上具有上部向SE的运动学特征; 而华北东部带向SE拆离, 伸展穹隆主体具有上部向NW的运动学特征。同位素年代学研究揭示伸展穹隆形成的峰期时间十分相近: 集中在130~120 Ma之间。高大地热流值背景所代表的岩石圈伸展环境, 与地球化学研究结果所揭示的大规模壳-幔作用具有非常好的耦合性, 并诱发了我国中东部晚中生代岩浆-热液活动及其相关大规模的成矿作用。中东部的成矿带与同时代的伸展构造具有很好的吻合性。
Abstract:
The Late Mesozoic extensional tectonics was quite significant on the central and eastern China. This extensional tectonics was expressed by the metamorphic core complexes (MCC), syn-tectonic magmatic domes or syn-tectonic plutons, rolling-hinge structures, and vast graben/half graben basins. According to ours and previous research work, four extension tectonic regimes have been determined: the western part of the North China domain, the eastern part of the North China domain, the southern margin of the North China and Qinling-Dabie domain, the interior of the South China Block domain. The direction of this Early Cretaceous extension tectonic was NW-SE in these four domains. As the largest crustal scale extensional tectonic in the world, this extreme extensional event exhumed the different levels of the crust rocks to the surface along detachment faults. This exhumation process destructed the crust of the eastern part of the North China Craton. In North China, the extensional tectonic is characterized by symmetry. Related geochronological works on the detachment faults constrain the activity period of the Early Cretaceous (ca. 130- 120 Ma). The lithospheric extension represented by the high geothermal flow corresponding well to the large-scale crust-mantle reaction revealed by the geochemical work. This interaction induced extensive magmatic-hydrothermal activities and related massive polymetallic mineralization in the central and eastern China.

参考文献/References:

蔡发田, 李祥才, 毛展新. 2002. 辽西地区侵入岩与内生金属成矿. 矿产与地质, 16(3): 155-159.
陈毓川, 薛春纪, 王登红, 李华芹, 路远发. 2003. 华北陆块北缘区域矿床成矿谱系探讨. 高校地质学报, 9(4): 520-535.
褚杨. 2017. 白垩纪越城岭伸展构造演化. 第十六届矿物岩石地球化学年会.
付乐兵, 魏俊浩, 谭俊, 李艳军, 张道涵, 陈加杰. 2015. 喀喇沁变质核杂岩内安家营子金矿床成矿与剥蚀历史. 矿物学报, (S1): 15-16.
傅昭仁, 李德威, 李先福, 王显达. 1992. 变质核杂岩及剥离断层的控矿构造解析. 武汉: 中国地质大学出版社: 17-27.
关会梅, 刘俊来, 纪沫, 赵胜金, 胡玲, Davis G A. 2008. 辽宁南部万福变质核杂岩的发现及其区域构造意义. 地学前缘, 15(3): 199-208.
郭林楠. 2016. 胶东型金矿成矿机理. 北京: 中国地质大学(北京)博士学位论文.
胡祥昭. 1989. 银岩含锡花岗斑岩的岩石学特征及成因研究. 地球化学, 18(3): 251-263.
纪新林, 王磊, 潘永信. 2010. 北京房山岩体的磁组构特征及其对岩体侵位的约束. 地球物理学报, 53(7): 1671-1680.
冀文斌, 林伟, 石永红, 王清晨, 褚杨. 2011. 大别山早白垩世变质核杂岩的结构与演化. 地质科学, 46(1): 161-180.
李士江, 马宏岩, 姜国超. 2010. 辽南地区金矿与侵入岩的关系. 矿产勘查, 1(3): 239-243.
李思田. 1994. 断陷盆地分析与煤聚积规律. 北京: 地质出版社: 1-125.
林少泽, 朱光, 赵田, 宋利宏, 刘备. 2014. 燕山地区喀喇沁变质核杂岩的构造特征与发育机制. 科学通报, 59(32): 3174-3189.
林伟, 王军, 刘飞, 冀文斌, 王清晨. 2013. 华北克拉通及邻区晚中生代伸展构造及其动力学背景的讨论. 岩石学报, 29(5): 1791-1810.
林伟, 王清晨, 王军, 王非, 褚杨, 陈科. 2011. 辽东半岛晚中生代伸展构造——华北克拉通破坏的地壳响应. 中国科学, 41(5): 638-653.
刘翠, 邓晋福, 苏尚国, 肖庆辉, 罗照华, 王启航, 许立权. 2004. 北京云蒙山片麻状花岗岩锆石SHRIMP定年及其地质意义. 岩石矿物学杂志, 23(2): 141-146.
刘俊来, 关会梅, 纪沫, 胡玲. 2006. 华北晚中生代变质核杂岩构造及其对岩石圈减薄机制的约束. 自然科学进展, 16(1): 21-26.
罗庆坤, 刘国生, 王彪, 项新葵, 许建华. 1995. 庐山?彭山地区伸展构造演化及其对矿产形成的制约. 地质科学, 30(2): 117-129.
吕贻峰, 秦松贤. 1998. 辽南地区构造演化与构造控矿. 辽宁地质, (3): 161-168.
吕贻峰, 魏俊浩. 1998. 辽南金矿集中区成矿地质异常分析及成矿预测. 地质与勘探, 34(4): 20-25.
毛建仁, 厉子龙, 叶海敏. 2014. 华南中生代构造?岩浆活动研究: 现状与前景. 中国科学: 地球科学, 44(12): 2593-2617.
毛景文, Stein H, 杜安道. 2004a. 长江中下游地区铜金矿Re-Os年龄精测及其对成矿作用的指示. 地质学报, 78(1): 121-131.
毛景文, 谢桂青, 郭春丽, 陈毓川. 2007. 南岭地区大规模钨锡多金属成矿作用: 成矿时限及地球动力学背景. 岩石学报, 23(10): 2329-2338.
毛景文, 谢桂青, 郭春丽, 袁顺达, 程彦博, 陈毓川. 2008. 华南地区中生代主要金属矿床时空分布规律和成矿环境. 高校地质学报, 14(4): 510-526.
毛景文, 谢桂青, 李晓峰, 张长青, 梅燕雄. 2004b. 华南地区中生代大规模成矿作用与岩石圈多阶段伸展. 地学前缘, 11(1): 45-55.
苗来成, 罗振宽, 关康, 黄佳展. 1998. 玲珑花岗岩中锆石的离子质谱U-Pb年龄及其岩石学意义. 岩石学报, 14(2): 198-206.
倪培, 徐克勤. 1993. 辽南半岛地质演化及金矿床的成因. 矿床地质, 12(3): 231-245.
裴荣富, 吴良士. 1990. 中国东部区域成矿研究述评. 矿床地质, 9(1): 91-94.
彭三国, 蔺志永, 胡俊良, 刘劲松. 2012. 武当?桐柏?大别成矿带区域成矿特征与找矿前景展望. 华南地质与矿产, 28(3): 237-242.
秦克章, 翟明国, 李光明, 赵俊兴, 曾庆栋, 高俊, 肖文交, 李继亮, 孙枢. 2017. 中国陆壳演化、多块体拼合造山与特色成矿的关系. 岩石学报, 33(2): 305-325.
舒良树, 孙岩, 王德滋, Faure M, Charvet J, Monie P. 1998. 华南武功山中生代伸展构造. 中国科学(D辑), 28(5): 431-438.
舒良树, 王德滋. 2006. 北美西部与中国东南部盆岭构造对比研究. 高校地质学报, 12(1): 1-13.
舒良树, 周新民. 2002. 中国东南部晚中生代构造格架. 地质论评, 48(3): 249-260.
舒良树, 周新民, 邓平, 余心起, 王彬, 祖辅平. 2004. 中国东南部中、新生代盆地特征与构造演化. 地质通报, 23(9-10): 876-884.
宋超, 卫巍, 侯泉林, 刘庆, 张宏远, 伍式崇, 朱浩峰, 李晖. 2016. 湘东茶陵地区老山坳剪切带特征及其与湘东钨矿的关系. 岩石学报, 32(5), 1571-1580.
王涛, 郑亚东, 张进江, 王新社, 曾令森, 童英. 2007. 华北克拉通中生代伸展构造研究的几个问题及其在岩石圈减薄研究中的意义. 地质通报, 26(9): 1154-1166.
王新社, 郑亚东. 2005. 楼子店变质核杂岩韧性变形作用的40Ar/39Ar年代学约束. 地质论评, 51(5): 574-582.
王志光, 张录星. 1999. 熊耳山变质核杂岩构造研究及找矿进展. 有色金属矿产与勘查, 8(6): 388-392.
王中亮. 2012. 焦家金矿田成矿系统. 北京: 中国地质大学(北京)博士学位论文.
魏俊浩, 刘丛强, 李志德, 赵永鑫. 2003. 论金矿床成矿年代的确定——以丹东地区成岩成矿Rb-Sr、U-Pb 同位素年代为例. 地质学报, 77(1): 113-119.
文志林, 邓腾, 董国军, 邹凤辉, 许德如, 王智琳, 林舸, 陈根文. 2016. 湘东北万古金矿床控矿构造特征与控矿规律研究. 大地构造与成矿学, 40(2): 281-294.
吴福元, 徐义刚, 高山, 郑建平. 2008. 华北岩石圈减薄与克拉通破坏研究的主要学术争论. 岩石学报, 24(6): 1145-1174.
吴福元, 杨进辉, 柳小明. 2005. 辽东半岛中生代花岗质岩浆作用的年代学格架. 高校地质学报, 11(3): 305- 317.
夏增明, 刘俊来, 倪金龙, 张婷婷, 施性明, 吴云. 2016. 胶东东部鹊山变质核杂岩结构、演化及区域构造意义. 中国科学: 地球科学, 46(3): 356-373.
许光, 王二七. 2010. 桐柏杂岩的中生代隆升机制及其与南阳盆地沉降的耦合关系. 地质科学, 45(3): 626- 652.
许建祥, 曾载淋, 李雪琴. 2007. 江西寻乌铜坑嶂钼矿床地质特征及其成矿时代. 地质学报, 81(7): 924-928.
杨进辉, 吴福元. 2009. 华北东部三叠纪岩浆作用与克拉通破坏. 中国科学(D辑), 39(7): 910-921.
杨进辉, 吴福元, 柳小明, 谢烈文, 杨岳衡. 2007. 辽东半岛小黑山岩体成因及其地质意义: 锆石U-Pb年龄和Hf同位素证据. 矿物岩石地球化学通报, 26(1): 29-43.
杨进辉, 吴福元, 罗清华, 钟孙霖, 张艳斌, Wilde S A. 2004. 辽东丹东地区侏罗纪花岗岩的变形时代: 40Ar/39Ar年代学制约. 岩石学报, 20(5): 1205-1214.
杨奎峰, 朱继托, 程胜红, 刘玄, 江鹏, 范宏瑞. 2017. 胶东三山岛金矿构造控矿规律研究. 大地构造与成矿学, 41(2): 272-282.
杨中柱, 孟庆成, 冮江, 韩小平. 1996. 辽南变质核杂岩构造. 辽宁地质, (4): 241-250.
阴江宁, 邢树文, 肖克炎. 2016. 武当?桐柏?大别Mo- Ree-Au-Ag-Pb-Zn多金属成矿带主要地质成矿特征及资源潜力分析. 地质学报, 90(7): 1447-1457.
喻爱南, 叶柏龙, 彭恩生. 1998. 湖南桃林大云山变质核杂岩构造与成矿关系. 大地构造与成矿学, 22(1): 82-88.
翟明国. 2010. 华北克拉通的形成演化与成矿作用. 矿床地质, 29(1): 24-36.
翟明国, 范宏瑞, 杨进辉, 苗来成. 2004. 非造山带型金矿—胶东型金矿的陆内成矿作用. 地学前缘, 11(1): 85-98.
翟明国, 朱日祥, 刘建明, 孟庆任, 侯泉林, 胡圣标, 李忠, 张宏福, 刘伟. 2003. 华北东部中生代构造体制转折的关键时限. 中国科学(D辑), 33(10): 913-920.
张晓晖, 李铁胜, 蒲志平. 2002a. 辽西医巫闾山两条韧性剪切带的40Ar-39Ar年龄: 中生代构造热事件的年代学约束. 科学通报, 47(5): 697-701.
张晓晖, 李铁胜, 蒲志平, 王辉. 2002b. 内蒙古赤峰娄子店-大城子韧性剪切带的40Ar-39Ar年龄及其构造意义. 科学通报, 47(12): 951-956.
张岳桥, 董树文, 李建华, 崔建军, 施炜, 苏金宝, 李勇. 2012. 华南中生代大地构造研究新进展. 地球学报, 33(3): 257-279.
周济元, 崔炳芳, 陈宏明. 2000. 赣南红山?锡坑迳地区铜锡矿地质及预测. 北京: 地质出版社: 1-195.
周涛发, 范裕, 王世伟, White N C. 2017. 长江中下游成矿带成矿规律和成矿模式. 岩石学报, 33(11): 3353-3372.
周新华. 2009. 华北中?新生代大陆岩石圈转型的研究现状与方向——兼评“岩石圈减薄”和“克拉通破坏”. 高校地质学报, 15(1): 1-18.
朱光, 谢成龙, 向必伟, 胡召齐, 王勇生, 李鑫. 2007. 洪镇变质核杂岩的形成机制及其大地构造意义. 中国科学(D辑), 37(5): 584-592.
朱广彬, 刘国范, 姚新年, 杨振军. 2005. 东秦岭铅锌银金钼多金属成矿带成矿规律及找矿标志. 地球科学与环境学报, 27(1): 44-52.
朱日祥, 范宏瑞, 李建威, 孟庆任, 李胜荣, 曾庆栋. 2015. 克拉通破坏型金矿床. 中国科学: 地球科学, 45(8): 1153-1168.
朱日祥, 潘永信, 史瑞萍, 施光海, 邵济安, 李大明. 2002. 辽西白垩纪火山岩古地磁测定与陆内旋转运动. 科学通报, 47(17): 1335-1340.
朱日祥, 徐义刚, 朱光, 张宏福, 夏群科, 郑天愉. 2012. 华北克拉通破坏. 中国科学: 地球科学, 42(8): 1135- 1159.
Buck W R. 1991. Modes of continental lithospheric extension. Journal of Geophysical Research, 96(B12): 20161- 20178.
Charles N, Augier R, Gumiaux C, Monié P, Chen Y, Faure M and Zhu R X. 2013. Timing, duration and role of magmatism in wide rift systems: Insights from the Jiaodong Peninsula (China, East Asia). Gondwana Research, 24: 412-428.
Charles N, Gumiaux C, Augier R, Chen Y, Faure M, Lin W and Zhu R X. 2012. Metamorphic Core Complex dynamics and structural development: Field evidences from the Liaodong Peninsula (China, East Asia). Tectonophysics, 560-561: 22-50.
Charles N, Gumiaux C, Augier R, Chen Y, Lin W and Zhu R X. 2011. Metamorphic Core Complex vs Synkinematic pluton in continental extension setting: Insights from key structures (Shandong Province, eastern China). Journal of Asian Earth Sciences, 40(1): 261-278.
Chen L, Zheng T Y and Xu W W. 2006. A thinned lithospheric image of the Tanlu Fault Zone, eastern China: Constructed from wave equation based receiver function migration. Journal of Geophysical Research, 111(9): B09312.
Coney P J and Harms T A. 1984. Cordilleran metamorphic core complexes: Cenozoic extensional relics of Mesozoic compression. Geology, 12(9): 550-554.
Corti G, Bonini M, Conticelli S, Innocenti F, Manetti P and Sokoutis D. 2003. Analogue modelling of continental extension: A review focused on the relations between the patterns of deformation and the presence of magma. Earth-Science Reviews, 6(3): 169-247.
Cui J J, Liu X C, Dong S W and Hu J M. 2012. U-Pb and 40Ar/39Ar geochronology of the Tongbai complex, central China: Implications for Cretaceous exhumation and lateral extrusion of the Tongbai-Dabie HP/UHP terrane. Journal of Asian Earth Sciences, 47: 155-170.
Daoudene Y, Gapais D, Ledru P, Cocherie A, Hocquet S and Donskaya T V. 2009. The Ereendavaa Range (north-eastern Mongolia): An additional argument for Mesozoic extension throughout eastern Asia. International Journal of Earth Sciences, 98(6): 1381-1393.
Daoudene Y, Ruffet G, Cocherie A, Ledru P and Gapais D. 2011. Timing of exhumation of the Ereendavaa metamorphic core complex (north-eastern Mongolia)- U-Pb and 40Ar/39Ar constraints. Journal of Asian Earth Sciences, 62: 98-116.
Darby B J, Davis G A, Zhang X H, Wu F Y, Wilde S and Yang J H. 2004. The newly discovered Waziyu metamorphic core complex, Yiwulüshan, western Liaoning province, Northwest China. Earth Science Frontiers, 11(3): 145-155.
Davies G A, Qian X L, Zheng Y D, Yu H, Wang C, Tong H M, Gehrels G E, Muhammad S and Fryxell J E. 1996. Mesozoic deformation and plutonism in the Yunmeng Shan: A Chinese metamorphic core complex north of Beijing, China // Yin A and Harrison T A. The Tectonic Evolution of Asia. New York: Cambridge University Press: 253-280.
Davis G A and Darby B J. 2010. Early Cretaceous overprinting of the Mesozoic Daqing Shan fold-and- thrust belt by the Hohhot metamorphic core complex, Inner Mongolia, China. Earth Science Frontiers, 1(1): 1-20.
Davis G A, Darby B J, Zheng Y D and Spell T L. 2002. Geometric and temporal evolution of an extensional detachment fault, Hohhot metamorphic core complex, Inner Mongolia, China. Geology, 30(11): 1003-1006.
Davis G A, Zheng Y D, Wang C, Darby B J, Zhang C H and Gehrels G E. 2001. Mesozoic tectonic evolution of the Yanshan fold and thrust belt, with emphasis on Hebei and Liaoning provinces, northern China // Hendrix M S and Davis G A. Paleozoic and Mesozoic Tectonic Evolution of Central and Asia: From Continental Assembly to Intracontinental Deformation. Geological Society of American Memoir, 194: 171-194.
Deng T, Xu D, Chi G X, Wang Z L, Jiao Q Q, Ning J T, Dong G J and Zou F H. 2017. Geology, geochronology, geochemistry and ore genesis of the Wangu gold deposit in northeastern Hunan Province, Jiangnan Orogen, South China. Ore Geology Reviews, 88: 619-637.
Donskaya T V, Windley B F, Mazukabzov A M, Kr?ner A, Sklyarov E V, Gladkochub D P, Ponomarchuk V A, Badarch G, Reichow M K and Hegner E. 2008. Age and evolution of late Mesozoic metamorphic core complexes in southern Siberia and northern Mongolia. Journal of Geological Society of London, 165(1): 405-421.
Fan H R, Zhai M G, Xie Y H and Yang J H. 2003. Ore-forming fluids associated with granite-hosted gold mineralization at the Sanshandao deposit, Jiaodong gold province, China. Mineralium Deposita, 38(6): 739-750.
Fan W M and Menzies M A. 1992. Destruction of aged lower lithosphere and accretion of Asthenosphere mantle beneath eastern China. Geotectonic et Metallogenia, 16: 171-180.
Faure M, Lin W, Sch?rer U, Shu L S, Sun Y and Arnaud N. 2003. Continental subduction and exhumation of UHP rocks: Structural and geochronological insights from the Dabieshan (East China). Lithos, 70(3): 213-241.
Faure M, Sun Y, Shu L S, Monié P and Charvet J. 1996. Extensional tectonics within a subduction-type orogen. The case study of the Wugongshan dome (Jiangxi Province, SE China). Tectonophysics, 263(1): 77-108.
Guo L, Wang T, Zhang J J, Liu J, Qi G W and Li J B. 2011. Evolution and time of formation of the Hohhot metamorphic core complex, North China: New structural and geochronological evidence. International Geology Review, 54(11): 1309-1331.
Guo P, Santosh P and Li S R. 2013. Geodynamics of gold metallogeny in the Shandong Province, NE China: An integrated geological, geophysical and geochemical perspective. Gondwana Research, 24(3-4): 1172-1202.
Hacker B R, Wallis S R, McWilliams M O and Gans P B. 2009. 40Ar/39Ar Constraints on the tectonic history and architecture of the ultrahigh-pressure Sulu orogen. Journal of Metamorphic Geology, 27(9): 827-844.
Han B F, Zheng Y D, Gan J W and Chang Z S. 2001. The Louzidian normal fault near Chifeng, Inner Mongolia: Master fault of a quasi-metamorphic core complex. International Geology Review, 43: 254-264.
Hao Z G, Fei H C, Hao Q Q and Liu L. 2016. Two super-large gold deposits have been discovered in Jiaodong Peninsula of China. Acta Geologica Sinica (English Edition), 90(1): 368-369.
Ji W B, Faure M, Lin W, Chen Y, Chu Y and Xue Z H. 2018. Multiple emplacement processes and tectonic significance of the Late Mesozoic Dayunshan-Mufushan batholith in Southeast China. Journal of Geophyscis Research Solid Earth, doi: 10.1002/2017JB014597.
Ji W B, Lin W, Faure M, Chu Y, Wu L, Wang F, Wang J and Wang Q C. 2014. Origin and tectonic significance of the Huangling massif within the Yangtze craton, South China. Journal of Asian Earth Sciences, 86: 59-75.
Ji W B, Lin W, Faure M, Shi Y H and Wang Q C. 2017. The early Cretaceous orogen-scale Dabieshan metamorphic core complex: Implications for extensional collapse of the Triassic HP-UHP orogenic belt in east-central China. International Journal of Earth Sciences, 106(4): 1311-1340.
Jiang P, Yang K F, Fan H R, Liu X, Cai Y C and Yang Y H. 2016. Titanite-scale insights into multi-stage magma mixing in Early Cretaceous of NW Jiaodong terrane, North China Craton. Lithos, 258-259: 197-214.
Li J H, Dong S W, Zhang Y Q, Zhao G C, Johnston S T, Cui J J and Xin Y J. 2016. New insights into Phanerozoic tectonics of south China: Part 1, polyphase deformation in the Jiuling and Lianyunshan domains of the central Jiangnan Orogen. Journal of Geophysics Research Solid Earth, 121(4): 3048-3080.
Li J H, Zhang Y Q, Dong S W, Su J B, Li Y, Cui J J and Shi W. 2013. The Hengshan low-angle normal fault zone: Structural and geochronological constraints on the Late Mesozoic crustal extension in South China. Tectonophysics, 606: 97-115.
Li J W, Vasconcelos P M, Zhou M F, Zhao X F and Ma C Q. 2006. Geochronology of the Pengjiakuang and Rushan gold deposits, Eastern Jiaodong gold province, Northeastern China: Implications for regional mineralization and geodynamic setting. Economic Geology, 101(5): 1023- 1038.
Li S R and Santosh M. 2014. Metallogeny and craton destruction: Records from the North China Craton. Ore Geology Reviews, 56: 376-414.
Li S R and Santosh M. 2017. Geodynamics of heterogeneous gold mineralization in the North China Craton and its relationship to lithospheric destruction. Gondwana Research, 50: 267-292.
Li X H, Li W X, Wang X C, Li Q L, Liu Y, Tang G Q, Gao Y Y and Wu F Y. 2010. SIMS U-Pb zircon geochronology of porphyry Cu-Au-(Mo) deposits in the Yangtze River Metallogenic Belt, eastern China: Magmatic response to early Cretaceous lithospheric extension. Lithos, 119(3-4): 427-438.
Li X H, Li Z X, Li W X, Liu Y, Yuan C, Wei G J and Qi C S. 2007. U-Pb zircon, geochemical and Sr-Nd-Hf isotopic constraints on age and origin of Jurassic I-and A-type granites from central Guangdong, SE China: A major igneous event in respond to foundering of a subducted flat-slab? Lithos, 96(1): 186-204.
Li Y J, Li S R, Mo X X and Santosh M. 2017. Isotope geochemistry and geochronology of the Niujuan silver deposit, northern North China Craton: Implications for magmatism and metallogeny in an extensional tectonic setting. Ore Geology Reviews, 90: 36-41.
Lin W, Chen Y, Faure M and Wang Q C. 2003. Tectonic implications of new Late Cretaceous paleomagnetic constraints from eastern Liaoning Peninsula, NE China. Journal of Geophysical Research, 108: 2313.
Lin W, Faure M, Chen Y, Ji W B, Wang F, Wu L, Charles N, Wang J and Wang Q C. 2013. Late Mesozoic compressional to extensional tectonics in the Yiwulüshan massif, NE China and its bearing on the evolution of the Yinshan- Yanshan orogenic belt. Part I: Structural analyses and geochronological constraints. Gondwana Research, 23: 54-77.
Lin W, Faure M, Monie P and Wang Q C. 2007. Polyphase Mesozoic tectonics in the eastern part of North China Block: Insights from the Eastern Liaoning Peninsula massif (NE China) // Zhai M G, Mindley B F, Kusky T M and Meng Q R. Mesozoic Sub-continental Lithospheric Thinning Under Eastern Asia. Geological Society, London, Special Publications, 280(1): 153-169.
Lin W, Faure M, Monié P, Sch?rer U and Panis D. 2008. Mesozoic extensional tectonics in Eastern Asia: The South Liaodong Peninsula metamorphic core complex (NE China). Journal of Geology, 116(2): 134-154.
Lin W, Faure M, Monié P, Sch?rer U, Zhang L S and Sun Y. 2000. Tectonics of SE China, new insights from the Lushan massif (Jiangxi Province). Tectonics, 19(5): 852-871.
Lin W, Ji W B, Faure M, Wu L, Li Q L, Shi Y H, Scharer U, Wang F and Wang Q C. 2015. Early Cretaceous extensional reworking of the Triassic HP-UHP metamorphic orogen in Eastern China. Tectonophysics, 662: 256-270.
Lin W, Monié P, Faure M, Sch?rer U, Shi Y H, Le Breton N and Wang Q C. 2011. Cooling paths of the NE China crust during the Mesozoic extensional tectonics: Example from the south-Liaodong peninsula metamorphic core complex. Journal of Asian Earth Sciences, 42(5): 1048-1065.
Lin W and Wang Q C. 2006. Late Mesozoic extensional tectonics in North China Block—Response to the lithosphere removal of North China Craton? Bulletin de la Société Géologique de France, 177: 287-294.
Lin W and Wei W. 2018. Late Mesozoic extensional tectonics in the North China Craton and its adjacent regions: A review and synthesis. International Geology Review, doi: 10.1080/00206814.2018.1477073
Lister G S and Davis G A. 1989. The origin of metamorphic core complexes and detachment faults formed during Tertiary continental extension in the northern Colorado River region, USA. Journal of Structural Geology, 11(1-2): 65-94.
Liu J L, Davis G, Lin Z Y and Wu F Y. 2005. The Liaonan metamorphic core complex, southeastern Liaoning Province, North China: A likely contributor to Cretaceous rotation of eastern Liaoning, Korea and contiguous areas. Tectonophysics, 407(1): 65-80.
Lu H Z, Archambault G, Li Y S and Wei J X. 2007. Structural geochemistry of gold mineralization in the Linglong-Jiaojia district, Shandong Province, China. Chinese Journal of Geochemistry, 26(3): 215-234.
Mao J W, Chen Y B, Chen M H and Pirajno F. 2013. Major types and timespace distribution of Mesozoic ore deposits in South China and their geodynamic settings. Mineralium Deposita, 48(3): 267-294.
Mao J W, Xie G Q, Duan C, Pirajno F, Ishiyama D and Chen Y C. 2011. A tectonogenetic model for porphyry skarn strata bound Cu-Au-Mo-Fe and magnetite apatite deposits along the Middle Lower Yangtze River Valley, Eastern China. Ore Geology Reviews, 43(1): 294-314.
Mazukabzov A M, Donskaya T V, Gladkochub D P, Sklyarov E V, Ponomarchuk V A and Sal’nikova E B. 2006. Structure and age of the metamorphic core complex of the Burgutui ridge (Southwestern Transbaikal region). Doklady Earth Sciences, 407(1): 179-183.
Meng Q R. 2003. What drove late Mesozoic extension of the northern China-Mongolia tract? Tectonophysics, 369(3-4): 155-174.
Meng Q R, Hu J M, Jin J Q, Zhang Y and Xu D F. 2003. Tectonics of the late Mesozoic wide extension basin system in the China-Mongolia border region. Basin Research, 15(3): 397-415.
Menzies M A, Fan W M and Zhang M. 1993. Palaeozoic and Cenozoic lithoprobe and the loss of >120 km of Archean lithosphere, Sino-Korean craton, China // Prichard H M, Alabaster T, Harris N B W., Magmatic Processes and Plate Tectonics. Geological Society, London, Special Publications, 76(1): 71-811.
Qiu L L, Chen F K, Yang J H and Fan H R. 2008. Single grain pyrite Rb-Sr dating of the Linglong gold deposit, eastern China. Ore Geology Reviews, 34(3): 263-270.
Ratschbacher L, Hacker B R, Webb L E, McWilliams M, Ireland T, Dong S W, Calvert A and Chateigner D. 2000. Exhumation of the ultrahigh-pressure continental crust in east central China: Cretaceous and Cenozoic unroofing and the Tan-Lu fault. Journal of Geophysical Research, 105(B6): 13303-13338.
Ren J Y, Tamaki K, Li S T and Zhang J X. 2002. Late Mesozoic and Cenozoic rifting and its dynamic setting in Eastern China and adjacent areas. Tectonophysics, 344(3-4): 175-205.
Santosh M and Pirajno F. 2015. The Jiaodong-type gold deposits: Introduction. Ore Geology Reviews, 65: 565- 567.
Sun W D, Zhang H, Ling M X, Ding X, Chung S L, Zhou J B, Yang X Y and Fan W M. 2011. The genetic association between adakites and Cu-Au ore deposits. International Geology Review, 53(5-6): 691-703.
Wang L X, Ma C Q, Zhang C, Zhang J Y and Marks M A W. 2014. Genesis of leucogranite by prolonged fractional crystallization: A case study of the Mufushan complex, South China. Lithos, 206: 147-163.
Wang T, Guo L, Zheng Y D, Donskaya T V, Gladkochub D, Zeng L S, Li J B, Wang Y B and Mazukabzov A. 2012. Timing and processes of late Mesozoic mid-lower-crustal extension in continental NE Asia and implications for the tectonic setting of the destruction of the North China Craton: Mainly constrained by zircon U-Pb ages from metamorphic core complexes. Lithos, 154: 315-345.
Wang T, Zheng Y D, Li T B and Gao Y J. 2004. Mesozoic granitic magmatism in extensional tectonics near the Mongolian border in China and their implications for crustal growth. Journal of Asian Earth Science, 23(5): 715-729.
Wang T, Zheng Y D, Zhang J P, Zeng L S, Donskaya T, Guo L and Li J B. 2011a. Pattern and kinematic polarity of late Mesozoic extension in continental NE Asia: Perspectives from metamorphic core complexes. Tectonics, 30(6): TC6007. doi: 10.1029/2011TC002896.
Wang X D, Neubauer F, Genser J and Yang W R. 1998. The Dabie UHP unit, Central China: A Cretaceous extensional allochthon superposed on a Triassic orogen. Terra Nova, 10(5): 260-267.
Wang Y and Li H M. 2008. Initial formation and Mesozoic tectonic exhumation of an intracontinental tectonic belt of the northern part of the Taihang Mountain Belt, Eastern Asia. Journal of Geology, 116(2): 155-172.
Wang Y S, Xiang B W, Zhu G and Jiang D Z. 2011c. Structural and geochronological evidence for Early Cretaceous orogen-parallel extension of the ductile lithosphere in the northern Dabie orogenic belt, East China. Journal of Structural Geology, 33(3): 362-380.
Wang Y, Zhou L Y and Li J Y. 2011b. Intracontinental superimposed tectonics-A case study in the Western Hills of Beijing, eastern China. Geological Society of America Bulletin, 123(5-6): 1033-1055.
Webb L E, Graham S A, Johnson C L, Badarch G and Hendrix S. 1999. Occurrence, age, and implications of the Yagan-Onch Hayrhan metamorphic core complex, southern Mongolia. Geology, 27(2): 143-146.
Wei W, Chen Y, Faure M, Martelet G, Lin W, Wang Q C, Yan Q and Hou Q L. 2016. An early extensional event of the South China Block during the Late Mesozoic recorded by the emplacement of the Late Jurassic syntectonic Hengshan Composite Granitic Massif (Hunan, SE China). Tectonophysics, 672-673: 50-67.
Wei W, Martelet G, Le Breton N, Shi Y H, Faure M, Chen Y, Hou Q L, Lin W and Wang Q C. 2014. A multidisciplinary study of the emplacement mechanism of the Qingyang-Jiuhua massif in Southeast China and its tectonic bearings. Part II: Amphibole geobarometry and gravity modeling. Journal of Asian Earth Sciences, 86: 94-105.
Wei W, Song C, Hou Q L, Chen Y, Faure M, Yan Q R, Liu Q, Sun J F and Zhu H F. 2017. The Late Jurassic extensional event in the central part of the South China Block-evidence from the Laoshan’ao shear zone and Xiangdong Tungsten deposit (Hunan, SE China). International Geology Review, 60(11-14): 1-21. doi: 10.1080/00206814.2017.1395714
Wu F Y, Han R H, Yang J H, Wilde S A, Zhai M G and Park S C. 2007. Initial constraints on the timing of granitic magmatism in North Korea using U-Pb zircon geochronology. Chemical Geology, 238(3): 232-248.
Wu F Y, Ji W Q, Sun D H, Yang Y H and Li X H. 2012. Zircon U-Pb geochronology and Hf isotopic compositions of the Mesozoic granites in southern Anhui Province, China. Lithos, 150: 6-25.
Xu D R, Chi G X, Zhang Y H, Zhang Z C and Sun W D. 2017a. Yanshanian (Late Mesozoic) ore deposits in China. Ore Geology Reviews, 88: 481-490.
Xu D R, Deng T, Chi G X, Wang Z L, Zou F H and Zhang J L. 2017b. Gold mineralization in the Jiangnan Orogen (JOB) of South China: Geological characteristics, ore deposit-type and geodynamic setting. Ore Geology Reviews, 88: 565-618.
Xu J W, Zhu G, Tong W X, Cui K R and Liu Q. 1987. Formation and evolution of the Tancheng-Lujiang wrench fault system: A major shear system to the northwest Pacific Ocean. Tectonophysics, 134(4): 273-310.
Yan D P, Zhou M F, Song H L, Wang G H and Sun M. 2006. Mesozoic extensional structures of the Fangshan tectonic dome and their subsequent reworking during collisional accretion of the North China block. Journal of the Geological Society, 163(1): 127-142.
Yang J H, Chung S L, Wilde S A, Wu F Y, Chu M F, Lo C H and Fan H R. 2005. Petrogenesis of post orogenic syenites in the Sulu Orogenic Belt, East China: Geochronology, geochemical and Nd-Sr isotopic evidence. Chemical Geology, 214: 99-125.
Yang J H, Wu F Y, Chung S L, Lo C H, Wilde S A and Davis G A. 2007. Rapid exhumation and cooling of the Liaonan metamorphic core complex: Inferences from 40Ar-39Ar thermochronology and implications for Late Mesozoic extension in the eastern North China Craton. The Geological Society of America Bulletin, 119(11): 1405-1414.
Yang J H and Zhou X H. 2001. Rb-Sr, Sm-Nd, and Pb isotope systematics of pyrite: Implications for the age and genesis of lode gold deposits. Geological Society of America, 229(8): 711-714.
Yang K F, Fan H R, Santosh M, Hu F F, Wilde S A, Lan T G, Lu L N and Liu Y S. 2012. Reactivation of the Archean lower crust: Implications for zircon geochronology, elemental and Sr-Nd-Hf isotopic geochemistry of late Mesozoic granitoids from northwestern Jiaodong Terrane, the North China Craton. Lithos, 146-147: 112-127.
Yang L Q, Deng J, Goldfarb R J, Zhang J, Gao B F and Wang Z L. 2014. 40Ar/39Ar geochronological constraints on the formation of the Dayingezhuang gold deposit: New implications for timing and duration of hydrothermal activity in the Jiaodong gold province, China. Gondwana Research, 25: 1469-1483.
Yang L Q, Deng J, Goldfarb R, Zhang J, Gao B F and Wang Z H. 2014. 40Ar/39Ar geochronological constraints on the formation of the Dayingezhuang gold deposit: New implications for timing and duration of hydrothermal activity in the Jiaodong gold province, China. Gondwana Research, 25(4): 1469-1483.
Yang L Q, Deng J, Wang Z L, Zhang L, Goldfarb R J, Yuan W M, Weinberg R F and Zhang R Z. 2016. Thermochronologic constraints on evolution of the Linglong Metamorphic Core Complex and implications for gold mineralization: A case study from the Xiadian gold deposit, Jiaodong Peninsula, eastern China. Ore Geology Reviews, 72: 165-178.
Yin A. 2004. Gneiss domes and gneiss dome systems // Whitney D L, Teyssier C and Siddoway C S. Gneiss Dome in Orogeny: Boulder, Colorado. Geological Society of America Special, 380: 1-14.
Yin A and Nie S. 1996. A Phanerozoic palinspastic reconstruction of China and its neighboring regions // Yin A and Harrison T A. The Tectonic Evolution of Asia. New York: Cambridge University Press: 442-485.
Yin C Y, Zhang B, Han B F, Zhang J J, Wang Y and Ai S. 2017. Structural analysis and deformation characteristics of the Yingba metamorphic core complex, northwestern margin of the North China craton, NE Asia. Journal of Structural Geology, 94: 195-212.
Zeng Q D, Liu J M, Liu H T, Shen P and Zhang L C. 2006. The ore forming fluid of the gold deposits of Muru gold belt in eastern Shanding, Chinada Case Study of Denggezhuang gold deposit. Resource Geology, 56(4): 375-384.
Zhang H F. 2005. Transformation of lithospheric mantle through peridotite-melt reaction: A case of Sino-Korean craton. Earth and Planetary Science Letters, 237(3): 768-780.
Zhang H F, Sun M, Zhou X H, Zhou M F, Fan W M and Zheng J P. 2003. Secular evolution of the lithosphere beneath the eastern North China Craton: Evidence from Mesozoic basalts and high-Mg andesites. Geochimica et Cosmochimica Acta, 67(22): 4373-4387.
Zhang J J, Zheng Y D, Shi Q, Yu X and Zhang Q. 1997. The Xiaoqinling detachment fault and metamorphic core complex of China: Structure, kinematics, strain and evolution. Proceedings of the 30th International Geological Congress, 14: 158-172.
Zheng Y, Wang S Z and Wang Y F. 1991. An enormous thrust nappe and extensional metamorphic core complex newly discovered in Sino-Mongolian boundary area. Science in China (series B), 34: 1146-1152.
Zheng Y D, Wang Y F, Liu R X and Shao J A. 1988. Sliding- thrusting tectonics caused by thermal uplift in the Yunmeng Mountains, Beijing, China. Journal of Structural Geology, 10(2): 135-144.
Zhou X M and Li W X. 2000. Origin of Late Mesozoic igneous rocks in Southeastern China: Implications for lithosphere subduction and underplating of mafic magmas. Tectonophysics, 326(3-4): 269-287.
Zhou Y Z, Han B F, Zhang B, Xu Z, Ren R, Li X W and Su L. 2012. The Yingba shear zone on the Sino-Mongolian border: Southwestern extension of the Zuunbayan Fault from Mongolia to China and implications for Late Mesozoic intracontinental extension in Eastern Asia. Tectonophysics, 574: 118-132.
Zhu G, Chen Y, Jiang D Z and Lin S Z. 2015a. Rapid change from compression to extension in the North China Craton during the Early Cretaceous: Evidence from the Yunmengshan metamorphic core complex. Tectonophysics, 656: 91-110.
Zhu G, Jiang D Z, Zhang B L and Chen Y. 2011. Destruction of the eastern North China Craton in a backarc setting: Evidence from crustal deformation kinematics. Gondwana Research, 22(1): 86-103.
Zhu G, Xie C L, Chen W, Xiang B P and Hu Z Q. 2010. Evolution of the Hongzhen metamorphic core complex: Evidence for Early Cretaceous extension in the eastern Yangtze craton, eastern China. Geological Society of America Bulletin, 122(3): 506-516.
Zorin Y A. 1999. Geodynamics of the western part of the Mongolia-Okhotsk collisional belt, Trans-Baikal region (Russia) and Mongolia. Tectonophysics, 306(1): 33-56.

备注/Memo

备注/Memo:
收稿日期: 2018-03-13; 改回日期: 2019-03-17
项目资助: 国家重点研发计划项目(2016YFC0600102, 2016YFC0600401)和国家自然科学基金项目(91855212, 91755205)联合资助。
第一作者简介: 林伟(1968-), 男, 研究员, 从事构造地质学教学和科研工作。Email: linwei@mail.iggcas.ac.cn
更新日期/Last Update: 2019-06-15