朝鲜北部狼林地块构造归属与地壳形成时代

吴福元, 李秋立, 杨正赫, 金正男, 韩龙渊. 朝鲜北部狼林地块构造归属与地壳形成时代[J]. 岩石学报, 2016, 32(10): 2933-2947.
引用本文: 吴福元, 李秋立, 杨正赫, 金正男, 韩龙渊. 朝鲜北部狼林地块构造归属与地壳形成时代[J]. 岩石学报, 2016, 32(10): 2933-2947.
WU FuYuan, LI QiuLi, YANG JongHyok, KIM JongNam, HAN RyongHyon. Crustal growth and evolution of the Rangnim Massif, northern Korean Peninsula.[J]. Acta Petrologica Sinica, 2016, 32(10): 2933-2947.
Citation: WU FuYuan, LI QiuLi, YANG JongHyok, KIM JongNam, HAN RyongHyon. Crustal growth and evolution of the Rangnim Massif, northern Korean Peninsula.[J]. Acta Petrologica Sinica, 2016, 32(10): 2933-2947.

朝鲜北部狼林地块构造归属与地壳形成时代

  • 基金项目:

    本文受重大国际合作项目(41210003)和国家自然科学基金项目(41530208)联合资助.

Crustal growth and evolution of the Rangnim Massif, northern Korean Peninsula.

  • 朝鲜半岛北部的狼林地块一直被认为是中朝克拉通的重要组成部分。传统认为,它向南与我国辽东半岛的辽南太古宙地体相接,与其北部的鞍山-辽北-吉南太古宙地体(龙岗地块)具有基本类似的物质组成。两大太古宙地体之间是著名的以辽河群、集安群和老岭群为代表的辽吉古元古代岩系。辽吉岩系目前最主要的学术争论是,它是原本一体的太古宙地体的裂解产物,还是两个性质不同的太古宙地体拼合的结果。无论采用何种模型,学术界都普遍接受狼林地块主要由太古代岩石组成这一基本假定。为准确厘定狼林地块的地壳性质与形成时代,本文选择大同江、清川江、城川江、长津江、厚州川、厚昌江和秃鲁江中的河沙样品作为研究对象。这些河流均发源于狼林山脉,是狼林地块的核心区域,因而这些河流沉积物能够较好地全面反映狼林地块的物质组成情况。上述河流不同部位8件样品的分析结果显示,狼林地块主要由18~19亿年的古元古代岩石组成,太古宙岩石比例极为有限。但锆石Hf同位素模式年龄集中在28亿年左右,与华北克拉通全岩样品的Nd同位素模式年龄基本一致。结合狼林地块大量麻粒岩相变质表壳岩系和古元古宙花岗岩的发育,本文认为狼林地块是与辽吉岩系基本类似的古元古代地体,它可能是华北克拉通在古元古代期间东南大陆边缘的巨型造山带,我们可将其简称为辽-吉-朝古元古代造山带。因此,先前认为狼林地块主要由太古宙岩石组成的观点需要重新检查和认识。
  • 加载中
  • [1]

    Bai J. 1993. The Precambrian Geology and Pb-Zn Mineralization in the Northern Margin of North China Platform. Beijing:Geological Publishing House (in Chinese)

    [2]

    Bai X, Liu SW, Yan M, Zhang LF, Wang W, Guo RR and Guo BR. 2014. Geological event series of Early Precambrian metamorphic complex in South Fushun area, Liaoning Province. Acta Petrologica Sinica, 30(10):2905-2924 (in Chinese with English abstract)

    [3]

    Cheong CS, Yi K, Kim N, Lee TH, Lee SR, Geng JZ and Li HK. 2013. Tracking source materials of Phanerozoic granitoids in South Korea by zircon Hf isotopes. Terra Nova, 25(3):228-235

    [4]

    Gang J and Han XP. 1997. Archean intrusive rocks in Jinzhou area, South Liaoning. Liaoning Geology, 14(2):81-90 (in Chinese with English abstract)

    [5]

    Gang J, Han XP and Wang FJ. 1999. Structural deformation and evolution of Archean palaeocontinental crust in South Liaoning. Liaoning Geology, 16(2):121-127 (in Chinese with English abstract)

    [6]

    Grant ML, Wilde SA, Wu FY and Yang JH. 2009. The application of zircon cathodoluminescence imaging, Th-U-Pb chemistry and U-Pb ages in interpreting discrete magmatic and high-grade metamorphic events in the North China Craton at the Archean/Proterozoic boundary. Chemical Geology, 261(1-2):155-171

    [7]

    Guo BR, Liu SW, Zhang J and Yan M. 2015. Zircon U-Pb-Hf isotope systematics and geochemistry of Helong granite-greenstone belt in southern Jilin Province, China:Implications for Neoarchean crustal evolution of the northeastern margin of North China Craton. Precambrian Research, 271:254-277

    [8]

    Hou QL, Wu YD, Wu FY, Zhai MG, Guo JH and Li Z. 2008. Possible tectonic manifestations of the Dabie-Sulu orogenic belt on the Korean Peninsula. Geological Bulletin of China, 27(10):1659-1666 (in Chinese with English abstract)

    [9]

    Laboratory of Absolute Age Determination, Institute of Geology, Academia Sinica. 1966. Preliminary results of age determination of rocks from Liaotung Peninsula, China. Scientia Geologica Sinica, 7(2):95-107 (in Chinese with English abstract)

    [10]

    Lee SR, Cho DL and Wu FY. 2016. Contrasting source domains for the Phanerozoic granitoids in South Korea revealed by zircon Hf isotopic signatures. Geosci. J., 20:585-596

    [11]

    Li JJ, Shen BF, Li SB and Mao DB. 1995. The Geology and Gold Mineralization of the Greenstone Belts in Qingyuan-Jiapigou Region, China. Tianjin:Tianjin Science and Technology Press, 1-132 (in Chinese)

    [12]

    Li XH, Liu Y, Li QL, Guo CH and Chamberlain KR. 2009. Precise determination of Phanerozoic zircon Pb/Pb age by multicollector SIMS without external standardization. Geochemistry, Geophysics, Geosystems, 10(4):Q04010, doi:10.1029/2009GC002400

    [13]

    Liu DY, Nutman AP, Compston W, Wu JS and Shen QH. 1992. Remnants of ≥3800Ma crust in the Chinese part of the Sino-Korean Craton. Geology, 20(4):339-342

    [14]

    Liu FL, Liu PH, Wang F, Liu CH and Cai J. 2015. Progresses and overviews of voluminous meta-sedimentary series within the Paleoproterozoic Jiao-Liao-Ji orogenic/mobile belt, North China Craton. Acta Petrologica Sinica, 31(10):2816-2846 (in Chinese with English abstract)

    [15]

    Lu XP, Wu FY, Lin JQ, Sun DY, Zhang YB and Guo CL. 2004. Geochronological successions of the Early Precambrian granitic magmatism in southern Liaodong Peninsula and its constraints on tectonic evolution of the North China Craton. Chinese Journal of Geology, 39(1):123-138 (in Chinese with English abstract)

    [16]

    Lu XP, Wu FY, Guo JH and Yin CJ. 2005. Late Paleoproterozoic granitic magmatism and crustal evolution in the Tonghua region, Northeast China. Acta Petrologica Sinica, 21(3):721-736 (in Chinese with English abstract)

    [17]

    Lu XP, Wu FY, Guo JH, Wilde SA, Yang JH, Liu XM and Zhang XO. 2006. Zircon U-Pb geochronological constraints on the Paleoproterozoic crustal evolution of the Eastern Block in the North China Craton. Precambrian Research, 146(3-4):138-164

    [18]

    Luo Y, Sun M, Zhao GC, Li SZ, Xu P, Ye K and Xia XP. 2004. LA-ICP-MS U-Pb zircon ages of the Liaohe Group in the Eastern block of the North China Craton:Constraints on the evolution of the Jiao-Liao-Ji belt. Precambrian Research, 134(3-4):349-371

    [19]

    Luo Y, Sun M, Zhao GC, Li SZ, Ayers JC, Xia XP and Zhang JH. 2008. A comparison of U-Pb and Hf isotopic compositions of detrital zircons from the North and South Liaohe groups:Constraints on the evolution of the Jiao-Liao-Ji Belt, North China Craton. Precambrian Research, 163(3-4):279-306

    [20]

    Meng E, Liu FL, Liu JH, Liu PH, Cui Y, Liu CH, Yang H, Wang F, Shi JR, Kong QB and Lian T. 2013a. Zircon U-Pb and Lu-Hf isotopic constraints on Archean crustal evolution in the Liaonan complex of Northeast China. Lithos, 177:164-183

    [21]

    Meng E, Liu FL, Cui Y and Cai J. 2013b. Zircon U-Pb and Lu-Hf isotopic and whole-rock geochemical constraints on the protolith and tectonic history of the Changhai metamorphic supracrustal sequence in the Jiao-Liao-Ji Belt, Southeast Liaoning Province, Northeast China. Precambrian Research, 233:297-315

    [22]

    Miao LC, Qiu YM, Fan WM, Zhang FQ and Zhai MG. 2005. Geology, geochronology, and tectonic setting of the Jiapigou gold deposits, southern Jilin Province, China. Ore Geology Reviews, 26(1-2):137-165

    [23]

    Oh CW, Kim SW, Choi SG, Zhai MG, Guo JH and Krishnan S. 2005. First finding of eclogite facies metamorphic event in South Korea and its correlation with the Dabie-Sulu collision belt in China. The Journal of Geology, 113(2):226-232

    [24]

    Paek RJ, Kang HG and Jon GP. 1996. Geology of Korea. Pyongyang:Foreign Languages Books Publishing House, 1-631

    [25]

    Peng P, Zhai MG, Guo JH, Zhang HF and Zhang YB. 2008. Petrogenesis of Triassic post-collisional syenite plutons in the Sino-Korean craton:An example from North Korea. Geological Magazine, 145(5):637-647

    [26]

    Peng P, Zhai MG, Li QL, Wu FY, Hou QL, Li Z, Li TS and Zhang YB. 2011. Neoproterozoic (~900Ma) Sariwon sills in North Korea:Geochronology, geochemistry and implications for the evolution of the south-eastern margin of the North China Craton. Gondwana Research, 20(1):243-254

    [27]

    Peng P, Wang C, Wang XP and Yang SY. 2015. Qingyuan high-grade granite-greenstone terrain in the Eastern North China Craton:Root of a Neoarchaean arc. Tectonophysics, 662:7-21

    [28]

    Peng P, Wang C, Yang JH and Kim JN. 2016. A preliminary study on the rock series and tectonic environment of the~1.9Ga plutonic rocks in North Korea. Acta Petrologica Sinica, 32(10):2993-3018 (in Chinese with English abstract)

    [29]

    Peuct JJ, Jahn BM and Cornichet J. 1986. Zircon U-Pb age of a tonalite within the Qingyuan granite-greenstone belt in Northeast China. In:Chinese Academy of Geological Sciences (ed.). Contributions to International Symposium of Precambrian Crustal Evolution (3). Beijing:Geological Publishing House, 222-229 (in Chinese)

    [30]

    Ree JH, Cho M, Kwon ST and Nakamura E. 1996. Possible eastward extension of Chinese collision belt in South Korea:The Imjingang belt. Geology, 24(12):1071-1074

    [31]

    Rudnick RL. 1995. Making continental crust. Nature, 378(6557):571-578

    [32]

    Shao JB, Li JG, Wang HT, Chen DY and Ren Q. 2014. Geological characteristics and zircon U-Pb age of the Wudaoyangcha Neoarchaean vanadic titanomagnetite deposit in Baishan, Jilin Province. Geology in China, 41(2):463-483 (in Chinese with English abstract)

    [33]

    Song B, Nutman AP, Liu DY and Wu JS. 1996. 3800 to 2500Ma crustal evolution in the Anshan area of Liaoning Province, northeastern China. Precambrian Research, 78(1-3):79-94

    [34]

    Sun JG, Lin Q and Ge WC. 1992. The deformation of the Archean tonalite bodies in Jinzhou area, Liaoning Province and the tectonic environment of emplacement. Jilin Geology, 11(4):28-35 (in Chinese with English abstract)

    [35]

    Wan YS, Song B, Yang C and Liu DY. 2005. Zircon SHRIMP U-Pb geochronology of Archaean rocks from the Fushun-Qingyuan area, Liaoning Province and its geological significance. Acta Geologica Sinica, 79(1):78-87 (in Chinese with English abstract)

    [36]

    Wang HC, Re YW, Lu SN, Kang JL, Chu H, Yu HB and Zhang CJ. 2015. Stratigraphic units and tectonic setting of the Paleoproterozoic Liao-Ji orogen. Acta Geoscientica Sinica, 36(5):583-598 (in Chinese with English abstract)

    [37]

    Wu FY, Ge WC, Sun DY, Lin Q and Zhou Y. 1997. The Sm-Nd, Rb-Sr isotopic ages of the Archean granites in southern Jilin Province. Acta Petrologica Sinica, 13(4):499-506 (in Chinese with English abstract)

    [38]

    Wu FY, Zhao GC, Wilde SA and Sun DY. 2005. Nd isotopic constraints on crustal formation in the North China Craton. Journal of Asian Earth Sciences, 24(5):523-545

    [39]

    Wu FY, Yang JH, Wilde SA, Liu XM, Guo JH and Zhai MG. 2007a. Detrital zircon U-Pb and Hf isotopic constraints on the crustal evolution of North Korea. Precambrian Research, 159(3-4):155-177

    [40]

    Wu FY, Han RH, Yang JH, Wilde SA, Zhai MG and Park SC. 2007b. Initial constraints on the timing of granitic magmatism in North Korea using U-Pb zircon geochronology. Chemical Geology, 238(3-4):232-248

    [41]

    Wu FY, Li XH, Zheng YF and Gao S. 2007. Lu-Hf isotopic systematics and their applications in petrology. Acta Petrologica Sinica, 23(2):185-220 (in Chinese with English abstract)

    [42]

    Wu FY, Zhang YB, Yang JH, Xie LW and Yang YH. 2008. Zircon U-Pb and Hf isotopic constraints on the Early Archean crustal evolution in Anshan of the North China Craton. Precambrian Research, 167(3-4):339-362

    [43]

    Yang JH, O'Reilly S, Walker RJ, Griffin W, Wu FY, Zhang M and Pearson N. 2010. Diachronous decratonization of the Sino-Korean craton:Geochemistry of mantle xenoliths from North Korea. Geology, 38(9):799-802

    [44]

    Yin A and Nie SY. 1993. An indentation model for the North and South China collision and the development of the Tan-Lu and Honam fault systems, eastern Asia. Tectonics, 12(4):801-813

    [45]

    Zhai MG and Peng P. 2007. Paleoproterozoic events in the North China Craton. Acta Petrologica Sinica, 23(11):2665-2682 (in Chinese with English abstract)

    [46]

    Zhai MG, Guo JH, Peng P and Hu B. 2007a. U-Pb zircon age dating of a rapakivi granite batholith in Rangnim massif, North Korea. Geological Magazine, 144(3):547-552

    [47]

    Zhai MG, Guo JH, Li Z, Chen DZ, Peng P, Li TS, Hou QL and Fan QC. 2007b. Linking the Sulu UHP belt to the Korean Peninsula:Evidence from eclogite, Precambrian basement, and Paleozoic sedimentary basins. Gondwana Research, 12(4):388-403

    [48]

    Zhai MG and Santosh M. 2011. The Early Precambrian odyssey of the North China Craton:A synoptic overview. Gondwana Research, 20(1):6-25

    [49]

    Zhai MG, Zhang YB, Zhang XH, Li QL, Peng P, Wu FY, Hou QL, Li TS and Zhao L. 2016. Renewed profile of the Mesozoic magmatism in Korean Peninsula:Regional correlation and broader implication for cratonic destruction in the North China Craton. Science China (Earth Sciences), doi:10.1007/s11430-016-0107-0

    [50]

    Zhang XH, Zhang YB, Yuan LL, Li YS, Chui WJ and Kim H. 2016a. Late Permian mafic volcanic rocks from the Hambuk massif, Korean Peninsula:Geochemistry, origin and tectonic implications. Acta Petrologica Sinica, 32(10):3070-3082 (in Chinese with English abstract)

    [51]

    Zhang XH, Wang HZ, Park HN, Yang JH and Kim JN. 2016b. Basement affinity of the Kwanmo Massif, Korean Peninsula:Evidence from zircon U-Pb geochronology and petro-geochemistry of the Undokdong meta-intrusive complex. Acta Petrologica Sinica, 32(10):2965-2980 (in Chinese with English abstract)

    [52]

    Zhang XH, Zhang YB, Zhai MG, Wu FY, Hou QL and Yuan LL. 2017. Decoding Neoarchean to Paleoproterozoic tectonothermal events in the Rangnim Massif, North Korea:Regional correlation and broader implication. Inter. Geol. Rev., 59:16-28

    [53]

    Zhang YB, Wu FY, Wilde SA, Zhai MG, Lu XP and Sun DY. 2004. Zircon U-Pb ages and tectonic implications of ‘Early Paleozoic’ granitoids at Yanbian, Jilin Province, Northeast China. Island Arc, 13(4):484-505

    [54]

    Zhang YB, Wu FY, Zhai MG and Lu XP. 2005. Tectonic setting of the Helong Block:Implications for the northern Boundary of the eastern North China Craton. Science in China (Series D), 48(10):1599-1612

    [55]

    Zhang YB, Wu FY, Yang JH, Kim JN and Han RH. 2016. Petrogenesis and geological implications of Phanerozoic granitoids at northern Korean Peninsula. Acta Petrologica Sinica, 32(10):3098-3122 (in Chinese with English abstract)

    [56]

    Zhao GC, Cao L, Wilde SA, Sun M, Choe WJ and Li SZ. 2006. Implications based on the first SHRIMP U-Pb zircon dating on Precambrian granitoid rocks in North Korea. Earth and Planetary Science Letters, 251(3-4):365-379

    [57]

    Zhao GC, Cawood PA, Li SZ, Wilde SA, Sun M, Zhang J, He YH and Yin CQ. 2012. Amalgamation of the North China Craton:Key issues and discussion. Precambrian Research, 222-223:55-76

    [58]

    Zhao GC and Cawood PA. 2012. Precambrian geology of China. Precambrian Research, 222-223:13-54

    [59]

    Zhao L, Zhang YB, Wu FY, Li QL, Yang JH, Kim JN and Choi WJ. 2016a. Paleoproterozoic high temperature metamorphism and anatexis in the northwestern Korean Peninsula:Constraints from petrology and zircon U-Pb geochronology. Acta Petrologica Sinica, 32(10):3045-3069 (in Chinese with English abstract)

    [60]

    Zhao L, Zhang YB, Yang JH, Han RY and Kim JN. 2016b. Archean rocks at the southeastern margin of the Rangnim massif, northern Korean Peninsula, and their response to Paleoproterozoic tectonothermal events. Acta Petrologica Sinica, 32(10):2948-2964 (in Chinese with English abstract)

    [61]

    白瑾. 1993. 华北陆台北缘前寒武纪地质及铅锌成矿作用. 北京:地质出版社

    [62]

    白翔, 刘树文, 阎明, 张立飞, 王伟, 郭荣荣, 郭博然. 2014. 抚顺南部早前寒武纪变质杂岩的地质事件序列. 岩石学报, 30(10):2905-2924

    [63]

    冮江, 韩小平. 1997. 辽南金州地区的太古宙侵入岩. 辽宁地质, 14(2):81-90

    [64]

    冮江, 韩小平, 王福君. 1999. 辽南太古宙古陆壳构造变形及演化. 辽宁地质, 16(2):121-127

    [65]

    侯泉林, 武昱东, 吴福元, 翟明国, 郭敬辉, 李忠. 2008. 大别-苏鲁造山带在朝鲜半岛可能的构造表现. 地质通报, 27(10):1659-1666

    [66]

    李俊建, 沈保丰, 李双保, 毛德宝. 1995. 清原-夹皮沟绿岩带地质及金的成矿作用. 天津:天津科学技术出版社, 1-132

    [67]

    刘福来, 刘平华, 王舫, 刘超辉, 蔡佳. 2015. 胶-辽-吉古元古代造山/活动带巨量变沉积岩系的研究进展. 岩石学报, 31(10):2816-2846

    [68]

    路孝平, 吴福元, 林景仟, 孙德有, 张艳斌, 郭春丽. 2004. 辽东半岛南部早前寒武纪花岗质岩浆作用的年代学格架. 地质科学, 39(1):123-138

    [69]

    路孝平, 吴福元, 郭敬辉, 殷长建. 2005. 通化地区古元古代晚期花岗质岩浆作用与地壳演化. 岩石学报, 21(3):721-736

    [70]

    彭澎, 王冲, 杨正赫, 金正男. 2016. 朝鲜~19亿年侵入岩的岩石类型与构造背景处探. 岩石学报, 32(10):2993-3018

    [71]

    Peuct JJ, 江博明, Cornichet J. 1986. 中国东北清原太古宙花岗岩-绿岩地体的一个英云闪长岩的锆石U-Pb精确年龄. 见:中国地质科学院编. 国际前寒武纪地壳演化讨论会论文集(三). 北京:地质出版社, 222-229

    [72]

    邵建波, 李景光, 王洪涛, 陈殿义, 任强. 2014. 吉林白山五道羊岔新太古代大型钒钛磁铁矿床地质特征及锆石U-Pb年龄. 中国地质, 41(2):463-483

    [73]

    孙景贵, 林强, 葛文春. 1992. 辽宁金州地区太古宙英云闪长岩体的变形与侵位的构造环境. 吉林地质, 11(4):28-35

    [74]

    万渝生, 宋彪, 杨淳, 刘敦一. 2005. 辽宁抚顺-清原地区太古宙岩石SHRIMP锆石U-Pb年代学及其地质意义. 地质学报, 79(1):78-87

    [75]

    王惠初, 任云伟, 陆松年, 康健丽, 初航, 于宏斌, 张长捷. 2015. 辽吉古元古代造山带的地层单元划分与构造属性. 地球学报, 36(5):583-598

    [76]

    吴福元, 葛文春, 孙德有, 林强, 周燕. 1997. 吉林南部太古代花岗岩Sm-Nd, Rb-Sr同位素年龄测定. 岩石学报, 13(4):499-506

    [77]

    吴福元, 李献华, 郑永飞, 高山. 2007. Lu-Hf同位素体系及其岩石学应用. 岩石学报, 23(2):185-220

    [78]

    翟明国, 彭澎. 2007. 华北克拉通古元古代构造事件. 岩石学报, 23(11):2665-2682

    [79]

    张晓晖, 张艳斌, 袁玲玲, 李永植, 崔远正, 金宪. 2016a. 朝鲜半岛咸北地区晚二叠世基性火山岩的地球化学特征:岩石成因与地质意义. 岩石学报, 32(10):3070-3082

    [80]

    张晓晖,王浩铮, 朴贤旭, 杨正赫, 金正男. 2016b. 朝鲜半岛冠帽地块的基底属性:来自银德洞变质侵入杂岩的锆石U-Pb年代学和岩石地球化学证据. 岩石学报, 32(10):2965-2980

    [81]

    张艳斌, 吴福元, 翟明国, 路孝平. 2004. 和龙地块的构造属性与华北地台北缘东段边界. 中国科学(D辑), 34(9):795-806

    [82]

    张艳斌, 吴福元, 杨正赫, 金正男, 韩龙渊. 2016. 朝鲜半岛北部显生宙花岗岩成因研究及地质意义. 岩石学报, 32(10):3098-3122

    [83]

    赵磊, 张艳斌, 吴福元, 李秋立, 杨正赫, 金正男, 崔元正. 2016a. 朝鲜半岛西北部古元古代高温变质-深熔作用:宏观和微观岩石学以及锆石U-Pb年代学制约. 岩石学报, 32(10):3045-3069

    [84]

    赵磊, 张艳斌, 杨正赫, 韩龙渊, 金正男. 2016b. 朝鲜狼林地块东南缘太古代岩石及其对古元古代构造热事件的响应. 岩石学报, 32(10):2948-2964

    [85]

    中国科学院地质研究所绝对年龄实验室. 1966. 辽东半岛岩石绝对年龄研究初步结果. 地质科学, 7(2):95-107

  • 加载中
计量
  • 文章访问数: 
  • PDF下载数: 
  • 施引文献:  0
出版历程
收稿日期:  2016-05-01
修回日期:  2016-07-21
刊出日期:  2016-10-31

目录