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中国科学地球科学中国科学地球科学 2013

中国(东亚)大陆构造与动力学——科学与技术前沿论坛“中国(东亚)大陆构造与动力学”专题进展

, PP. 1527-1538

许志琴,张国伟

Keywords: 中国(东亚)大陆,古大陆,构造与动力学

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Abstract:

？集结“中国(东亚)大陆构造与动力学”为主题的科学与技术前沿论坛的11个论题,梳理了中国(东亚)大陆构造与动力学领域的四大关键问题:(1)古大陆、古环境、古构造及中国(东亚)古大陆的形成;(2)中国大陆增生与碰撞造山系的造山过程;(3)中国大陆的盆-山体系及近海新生代盆地的形成演化;(4)中国大陆的现代地壳活动及深部结构.综述了中国(东亚)大陆在长期地质历史中的聚合、裂解、碰撞和造山的过程,突显中国大陆构造体制的长期性、复杂性、叠置性、再造性和与洋-陆转换的成因联系.中国(东亚)三大构造域的关系、地体边界的超高压变质带和深地幔作用、印度/亚洲碰撞和青藏高原的隆升、近海新生代盆地的形成,大型断裂与地震、华南大地构造等问题已成为当前中国大陆构造及动力学领域关注的热点.

References

[1]	李才. 1997. 西藏羌塘中部蓝片岩青铝闪石40Ar/39Ar定年及其地质意义. 科学通报, 42: 488
[2]	刘宝珺, 许效松. 1994. 中国南方岩相古地理图集. 北京: 科学出版社
[3]	马力, 陈焕疆, 甘克文, 等. 2004. 中国南方大地构造和海相油气地质. 北京: 地质出版社
[4]	任纪舜, 姜春发, 张正坤, 等. 1980. 中国大地构造及其演化. 北京: 科学出版社
[5]	孙敏, 龙晓平, 蔡克大, 等. 2009. 阿尔泰早古生代末期洋中脊俯冲: 锆石Hf同位素组成突变的启示. 中国科学: 地球科学, 39: 935-948
[6]	唐功建, 王强, 赵振华, 等. 2009. 西准噶尔包古图成矿斑岩年代学与地球化学: 岩石成因与构造、铜金成矿意义. 地球科学, 34, 56-74
[7]	王根厚, 韩芳林, 杨运军, 等. 2009. 藏北羌塘中部晚古生代增生杂岩的发现及其地质意义. 地质通报, 28: 1181-1187
[8]	徐备, 寇晓威, 宋彪, 等. 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: 2857-2862
[9]	徐杰, 宋长青, 楚全芝, 等. 1998. 张家口-蓬莱断裂带地震构造特征的初步探讨. 地震地质, 8: 156-154
[10]	许靖华, 孙枢, 李继亮. 1987. 是华南造山带而不是华南地台. 中国科学B辑, 10: 1107-1115
[11]	许继峰, 梅厚钧, 于学元. 2001. 准噶尔北缘晚古生代岛弧中与俯冲作用有关的adakite火山岩: 消减板片部分熔融的产物. 科学通报, 46: 684-687
[12]	许志琴, 杨经绥, 陈方远. 1996. 阿尼玛卿缝合带及“俯冲-碰撞”动力学. 见: 张旗, 主编. 蛇绿岩与地球动力学研究. 北京: 地质出版社. 185-189
[13]	许志琴, 徐惠芬, 张建新, 等. 1994. 北祁连走廊南山加里东俯冲杂岩石地体及动力学. 地质学报, 69: 1-14
[14]	许志琴, 杨经绥, 嵇少丞, 等. 2010. 中国大陆构造及动力学若干问题的认识. 地质学报, 84: 1-29
[15]	许志琴, 杨经绥, 姜枚, 等. 1999. 大陆俯冲作用及青藏高原周缘造山带的崛起. 地学前缘, 6: 139-151
[16]	许志琴, 杨经绥, 李海兵, 等. 2007. 造山的高原——青藏高原的地体拼合和碰撞动力学. 北京: 地质出版社. 1-458
[17]	许志琴, 曾令森, 杨经绥, 等. 2004. 走滑断裂、“挤压性盆-山构造”与油气资源关系的探讨. 地球科学, 29: 631-643
[18]	许志琴, 张泽明, 刘福来, 等. 2003. 苏鲁高压-超高压变质带的折返构造及折返机制. 地质学报, 77: 433-451
[19]	闫臻, 王宗起, 李继亮, 等. 2012. 西秦岭楔的构造属性及其增生造山过程. 岩石学报, 28: 1808—1828
[20]	杨经绥, 徐向珍, 李源, 等. 2011. 西藏雅鲁藏布江缝合带的普兰地幔橄榄岩中发现金刚石及其意义. 岩石学报, 27: 3207-3222
[21]	杨经绥, 许志琴, 裴先治,等. 2002. 秦岭发现金刚石: 横贯中国中部巨型超高压变质带新证据及古生代和中生代两期深俯冲作用的识别. 地质学报, 76: 484-495
[22]	杨经绥, 许志琴, 张建新, 等. 2009. 中国主要高压-超高压变质带的大地构造背景及俯冲/折返机制的探讨. 岩石学报, 25: 1529-1560
[23]	翟明国. 2011. 克拉通化与华北陆块的形成. 中国科学: 地球科学, 41: 1037-1046
[24]	张国伟, 郭安林, 董云鹏, 等. 2011. 大陆地质与大陆构造和大陆动力学. 地学前缘, 18: 1-12
[25]	张国伟, 张本仁, 袁学诚, 等. 2001. 秦岭造山带与大陆动力学. 北京: 科学出版社. 855
[26]	张建新, 许志琴, 陈文等. 1997. 北祁连中段俯冲增生杂岩/火山弧的时代探讨. 岩石矿物学杂志, 2: 112-119
[27]	张建新, 杨经绥, 许志琴, 等. 2002. 阿尔金榴辉岩中超高压变质作用证据. 科学通报, 47: 231-234
[28]	张立飞, David J E, 艾永亮, 等. 2002. 新疆西天山超高压变质榴辉岩. 岩石矿物学杂志, 21: 371-386
[29]	张培震, 邓起东, 张国民, 等. 2003. 中国大陆强震活动与活动地块, 中国科学D辑: 地球科学, 33: 12-20
[30]	张培震, 甘卫军, 沈正康, 等. 2005. 中国大陆现今构造作用的地块运动和连续变形的耦合模型. 地质学报, 79: 748-756
[31]	Bai W J, Zhou M F, Robinson P T. 1993. Possibly diamond-bearing mantle peridotites and podiform chromitites in the Luobusa and Donqiao ophiolites. Tibet, 30: 1650-1659
[32]	Briais A, Patriat P, Tapponniter P. 1993. Updated interpretation of magnetic anomalies and seafloor spreading stages in the South China Sea: Implications for the tertiary tectonics of southeast Asia. J Geophys Res, 98: 6299-6328
[33]	Cai K D, Sun M, Yuan C, Zhao G C, et al. 2010. Geochronological and geochemical study of mafic dykes from the northwest Chinese Altai: Implications for ocean ridge subduction in the Devonian. Gondwana Res, 18: 638-652
[34]	McFadden K A, Huang J, Chu X L, et al. 2008. Pulsed oxidation and biological evolution in the Ediacaran Doushantuo Formation. Proc Natl Acad Sci USA, 105: 3197-3202
[35]	Metcafe I. 2009. Late Palaeozoic and Mesozoic tectonic and palaeogeographical evolution of SE Asia. Geol Soc, 315: 7-23
[36]	Molnar P F, Pardo-Casas F, Stock J. 1988. The Cenozoic and Late Cretaceous evolution of the India Ocean Basin: Uncertain-ties in the reconstructed positions of the Indian, African and Antarctic plates. Basin Res, 1: 23-40
[37]	Molnar P, Ghose S. 2000. Seismic moment of major earthquakes and the rate of shortening across the Tien Shan. Geophys Res Lett, 27: 2377-2380
[38]	Molnar P, Tapponnier P. 1975. Cenozoic tectonics of Asia: Effects of a continental collision. Science, 189: 419-426
[39]	Molnar P H. Lyon-Caen H. 1989. Fault plane solution of earthquakes and active tectonics of the Tibetan Plateau and its margins. Geophys J Int, 99: 123-153
[40]	Northrup C J, Royden L H, Burchfiel B C. 1995. Motion of the Pacific plate relative to Eurasia and its potential relation to Cenozoic extension along the eastern margin of Eurasia. Geology, 23: 719-722
[41]	Powell C Mc A, Conaghan P J. 1973. Plate tectonic and the Himalayas. Earth Planet Sci Lett, 20: 1-12
[42]	Ren J S, Wang Z X, Chen B W, et al. 1999. The Tectonics of China From a Global View——A Guide to the Tectonic Map of China and Adjacent Regions. Beijing: Geological Publishing House
[43]	Rogers J J W, Santosh M. 2002. Configuration of Columbia, a Mesoproterozoic supercontinent. Gondwana Res, 5: 5-22
[44]	Scotese C R. 2004. A continental drift flipbook. J Geol, 112: 729-741
[45]	Shu L S, Faure M, Wang B, et al. 2008. Late Paleozoic-Early Mesozoic geological features of South China: Response to the indosinian collision events in Southeast Asia. C R Geosci, 340: 151-165
[46]	Smith D C. 1984. Coesite in clinopyroxene in the Caledonides and its implications for geodynamics. Nature, 310: 641-644
[47]	Socquet A, Pubellier M. 2005. Cenozoic deformation in western Yunnan (China-Myanmar border). J Asian Earth Sci, 24: 495-515
[48]	Tamaki K, Honza E. 1991. Global tectonics and formation of marginal basin: Role of the western Pacific. Episodes, 14: 224-230
[49]	Tang G J, Wang Q, Wyman D A, et al. 2010. Ridge subduction and crustal growth in the central Asian orogenic belt: Evidence from Late Carboniferous adakites and high-Mg diorites in the western Junggar region, northern Xinjiang (west China). Chem Geol, 277: 281-300
[50]	Tapponnier P, Peltzer G, Dain L, et al. 1982. Propagating extrusion tectonics in Asia: New insights from simple experiments with plasticine. Geology, 10: 611-616
[51]	Tapponnier P, Peltzer, Armijo R. 1986. On the mechanics of the collision between India and Asia, in Collision Tectonics. Geol Soc Spec Publ Lond, 19: 115-157
[52]	Torsvik T H. 2003. The Rodinia jigsaw puzzle. Science, 300: 1379-1381
[53]	van der Voo R, Levashova N M, Skrinnik L I, et al. 2006. Late orogenic, large-scale rotations in the Tien Shan and adjacent mobile belts in Kyrgyzstan and Kazakhstan. Tectonophysics, 426: 335-360
[54]	Wang Q, Wyman D A, Zhao Z H, et al. 2007. Petrogenesis of Carboniferous adakites and Nb-enriched arc basalts in the Alataw area, northern Tianshan Range (western China): Implications for Phanerozoic crustal growth in the central Asia orogenic belt. Chem Geol, 236: 42-64
[55]	Wang Y J, Fan W M, Zhang G W, et al. 2013. Phanerozoic tectonics of the south China block: Key observations and controversies. Gondwana Res, 23: 1273-1305
[56]	Windley B F, Alexeiev D, Xiao W J, et al. 2007. Tectonic models for accretion of the Central Asian orogenic Belt. J Geol Soc, 164: 31-47
[57]	Xiao W J, Han C M, Yuan C, et al. 2008. Middle Cambrian to Permian subduction-related accretionary orogenesis of North Xinjiang, NW China: Implications for the tectonic evolution of Central Asia. J Asian Earth Sci, 32: 102-117
[58]	Xiao W J, Huang B C, Han C M, et al. 2010. A review of the western part of the Altaids: A key to understanding the architecture of accretionary orogens. Gondwana Res, 18: 253-273
[59]	Xie S, Pancost R D, Yin H, et al. 2005. Two episodes of microbial change coupled with Permo/Triassic faunal mass extinction. Nature, 434: 494-497
[60]	Xiong X L, Xia B, Xu J F. 2006. Na depletion in modern adakites via melt/rock reaction within the sub-arc mantle. Chem Geol, 229: 273-292
[61]	Xu X S, O’Reilly S Y, Griffin W L, et al. 2007. The crust of Cathaysia: Age, assembly and reworking of two terranes. Precambrian Res, 158: 51-78
[62]	Xu Z Q, Wang Q, Pêcher A, et al. 2013. Orogen-parallel ductile extension and extrusion of the Greater Himalaya in the late Oligocene and Miocene. Tectonics, doi: 10.1002/tect.20021
[63]	Xu Z Q, Wang Q, Tang Z M, et al. 2009. Fabric kinematics of the ultrahigh-pressure metamorphic rocks from the main borehole of the Chinese continental scientific drilling project: Implications for continental subduction and exhumation. Tectonophysics, 475: 233-248
[64]	Xu Z Q. 1987. Etude tectonigue et microtectonigue de la chaine paleozoique et triasique des Qinling Chine. Doctoral Dissertation. Academie: Montpellier University. 96-98
[65]	Xu Z Q, Yang W C, Ji S C, et al. 2009. Deep root of a continent-continent collision belt: Evidence from the Chinese continental scientific drilling CCSD deep borehole in the Sulu ultrahigh-pressure HP-UHP metamorphic terrane, China. Tectonophysics, 475: 204-219
[66]	Yang J J, Smith D C. 1989. Evidence for a former sanidine-coesite-eclogite at Lanshantou, eastern China, and the recognition of the Chinese “Su-Lu Coesite-Eclogite Province”. Third International Eclogite Conference. Oxford: Blackwell Scientific Publications. 26
[67]	Yang J S, Xu Z Q, Song S G, et al. 2001. Discovery of coesite in the North Qaidam Early Paleozoic ultrahigh pressure (UHP) metamorphic belt, NW China. Comptes Rendus de l''Académie des Sciences-Series IIA-Earth Planet Sci, 333: 719-724
[68]	Zhang K J, Cai J X, Zhang Y X, et al. 2006. Eclogites from central Qiangtang, northern Tibet (China) and tectonic implications. Earth Planet Sci Lett, 245: 722-729
[69]	Zhang P, Shen Z, Wang M, et al. 2004. Continuous deformation of the Tibetan Plateau from GPS data. Geology, 32: 809-812
[70]	Zhao G C, Cawood P A, Wilde S A, et al. 2002. Review of global 2.1-1.8 Ga orogens: Implications for a pre-Rodinia supercontinent. Earth-Sci Rev, 59: 125-162
[71]	Zhao G C, Sun M, Wilde S A, et al. 2004. A Paleo-Mesoproterozoic supercontinent: Assembly, growth and breakup. Earth-Sci Rev, 67: 91-123
[72]	Zhao X X. 1990. New paleomagnetic results from northern China: Collision and suturing with Siberia and Kazakhstan. Tectonophysics, 181: 43-81
[73]	Zhao Z H, Xiong X L, Wang Q, et al. 2008. Underplating-related adakites in Xinjiang Tianshan, China. Lithos, 102: 374-391
[74]	陈旭, 戎嘉余, Rowley D B, 等. 1995. 对华南早古生代板溪洋的质疑. 地质论评, 41: 389-400
[75]	陈旭, 张元动, 樊隽轩, 等. 2010. 赣南奥陶纪笔石地层序列与广西运动. 中国科学: 地球科学, 40: 1621-1631
[76]	邓起东, 张培震, 冉勇康, 等. 2002. 中国大陆活动构造基本特征. 中国科学D辑: 地球科学, 32: 1020-1030
[77]	邓希光, 丁林, 刘小汉. 2001. 青藏高原羌塘冈玛日地区蓝片岩及其40Ar/39Ar年代学. 科学通报, 45: 2322-2326
[78]	国家地震局鄂尔多斯活动断裂系课题组. 1988. 鄂尔多斯活动断裂系. 北京: 地震出版社
[79]	黄晶, 储雪蕾, 张启锐, 等. 2007. 新元古代冰期及其年代. 地学前缘, 14: 249-256
[80]	黄汲清, 任纪舜, 姜春发, 等. 1977. 中国大地构造基本轮廓. 地质学报, 51: 117-135
[81]	贾承造, 魏国齐, 李本亮. 2005. 中国小型克拉通盆地群的叠合复合性质及其含油气系统. 高校地质学报, 11: 479-492
[82]	贾承造, 杨树锋, 陈汉林, 等. 2001. 特提斯北缘盆地群构造地质与天然气. 北京: 石油工业出版社, 162
[83]	贾承造, 杨树锋, 魏国, 等. 2008. 中国环青藏高原新生代巨型盆山体系构造特征与含油气前景. 天然气工业, 28: 1-11
[84]	贾承造, 何登发, 石昕, 等. 2006. 中国油气晚期成藏特征. 中国科学D辑: 地球科学, 36: 412-42
[85]	贾承造. 2005. 中国中西部前陆冲断带构造特征与天然气富集规律. 石油勘探与开发, 32: 9-15
[86]	贾承造. 2007. 中国喜马拉雅构造运动的陆内变形特征与油气矿藏富集. 地学前缘, 14: 96-104
[87]	李本亮, 贾承造, 庞雄奇, 等. 2007. 环青藏高原盆山体系内前陆冲断构造变形的空间变化规律. 地质学报, 81: 1200-1207
[88]	李本亮, 雷永良, 陈竹新, 等. 2011. 环青藏高原盆山体系东段新构造变形特征. 岩石学报, 27: 636-644
[89]	李才, 翟庆国, 陈文, 等. 2006b. 青藏高原羌塘中部榴辉岩Ar-Ar定年. 岩石学报, 22: 2843-2849
[90]	李才, 翟庆国, 董永胜. 2006a. 青藏高原羌塘中部发现榴辉岩及其意义. 科学通报, 51: 70-74
[91]	Charvet J, Shu L S, Faure M, et al. 2010. Structural development of the Lower Paleozoic belt of South China: Genesis of an intracontinental orogen. J Asian Earth Sci, 39: 309-330
[92]	Chopin C. 1984. Coesite and pure pyrope in high-grade blueschists of the Western Alps: A first record and some consequences. Contrib Mineral Petrol, 86: 107-118
[93]	Chopin C. 2003. Ultrahigh-pressure metamorphism: Tracing continental crust into the mantle. Earth Planet Sci Lett, 212: 1-14
[94]	Condie K C. 2002. Breakup of a Paleoproterozoic supercontinent. Gondwana Res, 5: 41-43
[95]	Elliott J R, Walters R J, England P C, et al. 2010. Extension on the Tibetan plateau: Recent normal faulting measured by InSAR and body wave seismology. Geophys J Int, 183: 503-505
[96]	Erwin D H. 1993. The Great Paleozoic Crisis: Life and Death in the Permian. New York: Columbia University Press
[97]	Evans D, Mitchell R N. 2011. Assembly and breakup of the core of Paleoproterozoic-Mesoproterozoic supercontinent Nuna. Geology, 39: 443-446
[98]	Gansser A. 1964. The geology of the Himalayas. Geology, 13: 679-682
[99]	Geng H Y, Sun M, Yuan C, et al. 2009. Geochemical, Sr-Nd and zircon U-Pb-Hf isotopic studies of Late Carboniferous magmatism in the West Junggar, Xinjiang: Implications for ridge subduction? Chem Geol, 266: 373-398
[100]	Golonka J. 2004. Plate tectonic evolution of the southern margin of Eurasia in the Mesozoic and Cenozoic. Tectonophysics, 381: 235-273
[101]	Hall R, Ali J R. Anderson C D. 1995. Cenozoic motion of the Philippine Sea Plate: Palaeomagnetic evidence from eastern Indonesia. Tectonics, 14: 1117-1132
[102]	Heppe K, Helmcke D, Wemmer, K. 2007. The Lancang River zone of southwestern Yunnan, China: A questionable location for the active continental margin of Paleotethys. J Asian Earth Sci, 30: 706-720
[103]	Hoffman F P. 1991. Did breakout of Laurentia turn Gondwana inside-out? Science, 252: 1409-1411
[104]	Hutchison C S. 2004. Marginal basin evolution: the southern South China Sea. Mar Pet Geol, 21: 1129-1148
[105]	Isozaki Y. 2009. Illawarra reversal: The fingerprint of a superplume that triggered Pangean breakup and the end-Guadalupian (Permian) mass extinction. Gondwana Res, 15: 421-432
[106]	Jiang Y D, Sun M, Zhao G C, et al. 2010. The ~390 Ma high-T metamorphic event in the Chinese Altai: A consequence of ridge-subduction. Am J Sci? 310: 1421-1452
[107]	Kapp P, Yin A, Craig E, et al. 2000. Blueschist-bearing metamorphic core complexes in the Qiangtang block reveal deep crustal structure of northern Tibet. Geology, 28: 19-22
[108]	Karlstrom K E, Harlan S S, ？h？ll, et al. 2001. Long-lived (1.8-1.0 Ga) convergent orogen in southern Laurentia, its extensions to Australia and Baltica, and implications for refining Rodinia. Precambrian Res, 111: 5-30
[109]	Larson R L. 1991. Geological consequences of superplumes. Geology, 19: 963-966
[110]	Levashova N M, Degtyarev K E, Bazhenov M L, et al. 2003. Middle Paleozoic paleomagnetism of east Kazakhstan: Post-Middle Devonian rotations in a large-scale orocline in the central Ural-Mongolia belt. Tectonophysics, 377: 249-268
[111]	Li Z X, Li X H. 2007. Formation of the 1300-km-wide intracontinental orogen and postorogenic magmatic province in Mesozoic South China: A flat-slab subduction model. Geology, 35: 179-182
[112]	Liu W, Liu X J, Xiao W J. 2012. Massive granitoid production, but not massive continental-crust growth in the Chinese Altay (CA)——An integration of zircon U-Pb age and Hf isotope, geochemical and Nd-Sr isotopic compositions of granitoids, volcanics, and metasedimentary rock of the CA as compared with its southern and northern terrains. Am J Sci, 312: 629-684
[113]	Lu Z, Zhang L, Du J, et al. 2008. Coesite inclusions in garnet from eclogitic rocks in western Tianshan, NW China: Convincing proof of deep subduction. Am Miner, 93: 1845-1850
[114]	Ma C, Xiao W J, Windley B F, et al. 2012. Tracing a subducted ridge-transform system in a late Carboniferous accretionary prism of the southern Altaids: Orthogonal sanukitoid dyke swarms in western Junggar, NW China. Lithos, 140-141: 152-165
[115]	Maruyama S, Isozaki Y, Kimura G. 1997. Paleogeographic maps of the Japanese islands: Plate tectonic synthesis from 750 Ma to the present. Isl Arc, 6: 121-142
[116]	Yin A, Harrison T M. 2000. Geologic evolution of the Himalayan-Tibetan Orogen. Annu Rev Earth Planet Sci, 28: 211-280
[117]	Yin A. 2010. Cenozoic tectonic evolution of Asia: A preliminary synthesis. Tectonophysics, 488: 293-325
[118]	Yin H, Huang S, Zhang K, et al. 1992. The effects of volcanism on the Permo-Triassic mass extinction in South China. In: Sweet W C, Yang Z Y, Dickins J M, eds. Permo-Triassic Events in the Eastern Tethys. Cambridge: Cambridge University Press. 146-157
[119]	Yin H, Xie S, Luo G, et al. 2012. Two episodes of environmental change at the Permian-Triassic boundary of the GSSP section Meishan. Earth-Sci Rev, 115: 163-172
[120]	Zhai M G, Santosh M. 2011. The early Precambrian odyssey of North China craton: A synoptic overview. Gondwana Res, 20: 6-25
[121]	Zhang G W, Guo A L, Yao A P. 2006. Thoughts on studies of China continental geology and tectonics. Prog Nat Sci, 16: 1022-1026
[122]	Zhang J E, Xiao W J, Han C M, et al. 2011. Kinematics and age constraints of deformation in a Late Carboniferous accretionary complex in Western Junggar, NW China. Gondwana Res, 19: 958-974, doi: 10.1016/j.gr.2010.10.003

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