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矿床地质 2013

天山-阿尔泰地区古生代构造及相关的内生成矿作用

万天丰

Keywords: 地质学,大地构造学,内生金属成矿作用,天山-阿尔泰地区

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Abstract:

探讨天山-阿尔泰地区大地构造及其相关的内生成矿作用是一个重要而又有趣的研究课题。阿尔泰地区属于早古生代碰撞带,天山地区属于晚古生代早期(晚泥盆世—早石炭世)碰撞带,均为区域性近南北向缩短-碰撞作用的结果。在晚泥盆世—早石炭世,阿尔泰地区近NW向区域性断层呈现右行走滑的特征,天山地区近EW向的区域性断层表现为逆断层的活动。但在晚石炭世—早二叠世,受乌拉尔碰撞带挤压作用远程效应的影响,该地区受到较弱的向东挤压的作用,阿尔泰地区NW向断层转变成左行走滑断层,天山地区近EW向断层则转变为右行走滑断层,使该区岩石发生适度的破碎,以致形成大量世界著名的内生金属矿床。对于亚洲大陆来说,碰撞作用最强烈的时期并不一定是内生金属成矿作用最有利的阶段,应该审慎地对待所谓的"造山带成矿作用假说"。最后,笔者还对该区深部隐伏内生金属矿床的找寻提出了一些建议。

References

[1]	车自成, 刘洪福, 刘良,等. 1994. 中天山造山带的形成与演化[M]. 北京:地质出版社. 1-135.
[2]	陈喜峰,彭润民,刘家军,王建平,王小龙. 2010. 吉尔吉斯斯坦库姆托尔超大型金矿床地质特征[J]. 黄金,31(12):15-19.
[3]	陈毓川,叶庆同,冯京, 等. 1996. 阿舍勒铜锌成矿带黄铁矿型多金属成矿带和成矿预测[M]. 北京:地质出版社. 1-330.
[4]	高俊,龙灵利,钱青,黄德文,苏文, Reiner KLZMD. 2006. 南天山:一个晚古生代或三叠纪造山带[J]. 岩石学报,22: 1049-1061.
[5]	耿元生,周喜文. 2012. 阿拉善变质基底中的早二叠世岩浆热事件——来自同位素年代学的证据[J]. 岩石学报,(9):3-21.
[6]	李锦轶,王克卓,李文铅,郭华春,宋彪,王瑜,莫申国,赵子然,朱志新,潘成泽. 2002. 东天山晚古生代以来大地构造与矿产勘查[J]. 新疆地质, 20(4):295-301.
[7]	李廷栋,Uzhkenov B S,Mazorov A K, Kim B C,Tomurtogoo O, Petrov G V, Strelnikov S I. 2008. 亚洲中部及邻区地质图(1:2 500 000)[M]. 北京:地质出版社.
[8]	毛景文,杨建明,韩春明,王志良. 2002. 东天山晚古生代铜金多金属矿床成矿系统和成矿地球动力学模型[J]. 地球科学,27 (4): 413-424.
[9]	毛景文,张作衡,裴荣富. 2012a. 中国矿床模型概论[M]. 北京:地质出版社. 1-560.
[10]	毛景文,张作衡,王义天, 等. 2012b. 国外主要矿床类型、特点及找矿勘查[M]. 北京:地质出版社. 1-480.
[11]	聂凤军,江思宏,张义,刘妍,胡朋. 2004. 中蒙边境及邻区斑岩型铜矿床地质特征及成因[J]. 矿床地质, 23(2): 176-189.
[12]	聂凤军,江思宏,白大明,王志良,朱成伟,徐有强,刘妍,胡朋. 2005. 中天山及邻区金属矿床成矿规律和找矿方向[M]. 北京: 地质出版社. 1-371.
[13]	张新元,聂秀兰. 2010. 蒙古国南部欧玉陶勒盖铜(金)矿田找矿勘查与成矿理论研究新进展[J]. 地球学报, 31(3): 373-382.
[14]	更多...
[15]	张招崇,董书云,黄河,等. 2009. 西南天山二叠纪中酸性侵入岩的地质学和地球化学:岩石成因和构造背景[J]. 地质通报28: 1827-1839.
[16]	邹天人,李清昌. 2006. 中国新疆稀有及稀土金属矿床[M]. 北京:地质出版社. 1-284.
[17]	Alle[ZK(#]n M, Windley B and Zhang C. 1992. Paleozoic collisional tectonics and magmatism of the Chinese Tianshan, Central Asia[J]. Tectonophysics, 220: 89-115.
[18]	Bakirov A B and Kakitaev K. 2000. Information about geology of the Kyrgyz Republic (Kyrgyzstan)[J]. International Consortium of Geological Survey Asia-Pacific Newsletter, 3: 4-12.
[19]	Bazhenov M L, Collins A Q, Degtyarev K E, et al. 2003. Paleozoic northward drift of the North Tian Shan (Central Asia) as revealed Ordovician and Carboniferous paleomagnetism[J]. Tectonophysics, 366: 113-141.
[20]	Biske Y S and Seltmann R. 2010. Paleozoic Tian-Shan as a transitional region between the Rheic and Ural-Turkestan ocean[J]. Gondwana Research, 17: 602-613.
[21]	Buslov M M, Watanabe T, Fujiwara Y, et al. 2004. Late Paleozoic faults of the Altai region, Central Asia: Tectonic pattern and model of formation[J]. Journal of Asian Earth Sciences, 23: 655-671.
[22]	Charvet J, Shu L S and Laurent-Charvet S. 2007. Paleozoic structural and geodynamic evolution of eastern Tianshan(NW China): Welding of the Tarim and Junggar plates[J]. Episodes, 30: 163-186.
[23]	Cooke D R, Hollings P and Walshe J L. 2005. Giant porphyry deposits: Characteristics, distribution, and tectonic controls[J]. Econ. Geol., 100: 801-818.
[24]	Han B F, He G Q, Wang X C, et al. 2011. Late Carbonniferous Collision between the Tarim and Kazakhstan-Yili terranes in the western segment of South Tian Shan Orogen, Central Asia, and implications for the Northern Xinjiang, western China[J]. Earth-Science Reviews, 109: 74-93.
[25]	Laurent-Charvet S, Charvet J, Shu L S, et al. 2002. Paleozoic late collisional strike-slip deformation in Tianshan and Altay, eastern Xinjiang, NW China[J]. Terra Nova, 14: 249-256.
[26]	Laurent-Charvet S, Charvet J, Monie P, et al. 2003. Late Paleozoic strike-slip shear zones in eastern Central Asia (NW China): New structural and geochoronological data[J]. Tectonics, 22: 1099-1101.
[27]	Mao J W, Han C M and Wang Y T. 2002. Geological characteristics, metallogenic model and criteria for exploration of the large South Tianshan gold metallogenic belt in Central Asia[J]. Geological Bulletin of China, 21(12):858-868.
[28]	Natal\'in B A and Sengor A M C. 2005. Late Paleozoic to Triassic evolution of the Turan and Scythian platform: The pre-history of the paleo-Tethyan closure[J]. Tectonophysics, 404: 175-202.
[29]	万天丰. 2011. 中国大地构造学[M]. 北京: 地质出版社. 1-497.
[30]	万天丰. 2013. 新编亚洲大地构造区划图[J]. 中国地质(待刊).
[31]	吴振寰,邬统旦,唐昌韩. 1993. 中国周边国家地质与矿产[M]. 武汉: 中国地质大学出版社. 1-268.
[32]	肖序常,汤耀庆,冯益民,朱宝清,李锦轶,赵民. 1992. 新疆北部及其邻区大地构造[M]. 北京:地质出版社. 1-169.
[33]	肖序常,何国琦,徐新,李锦轶,郝杰,成守德,邓振球,李永安. 2010. 中国新疆地壳结构与地质演化[M]. 北京:地质出版社. 1-317.
[34]	谢家荣. 1936. 中国之矿产时代及矿产区域[J]. 地质论评, 1 (3): 363-380.
[35]	Golovanov I M, Seltmann R and Kremenetsky A A. 2005. The porphyry Cu-Au/Mo deposits of Central Eurasia: 2. The Almalyk (Kalmakyr-Dalnee) and Saukbulak Cu-Au porphyry [JPsystem, Uzbeki-stan[A]. In: Porter T M, eds. Super porphyry copper and gold deposits : A global perspective[M]. Adelide: PGC Pulishing, 513-524.
[36]	Petrov O, Leonov Y, Li T D, Tomurtogoo O and Hwang J H. 2008. Tectonic zoning of central asia and adjacent Areas (1:20 000 000)[M]. In: Atlas of Geological Maps of Central Asia and Adjacent areas (1:2 500 000). VSEGEI Cartographic Factory.
[37]	Pickering K T, Koren T N, Lytochkin V N, et al. 2008. Silurian-Devonian active-margin deep marian systems and paleogeography, Alai Range, Southern Tian Shan, Central Asia[J]. Journal of the Geological Soiety of London, 165: 189-210.
[38]	Pubellier M. 2008. Structural map of eastern Eurasia (1:12 500 000) [M]. Paris: CGMW.
[39]	Shi Y, Lu H, Jia D, Cai D, et al. 1994. Paleozoic plate tectonic evolution of Tarim and Western Tianshan region, western China[J]. International Geological Review, 36: 1058-1066.
[40]	Van der Voo R, Levashova N M, Skrinnik L I, et al. 2006. Late orogenic large-scale rotations in the Tian Shan and adjacent mobilebelt in Kyrgyzstan and Kazakhstan[J]. Tectonophysics, 426:335-360.
[41]	Wan T F. 2011. The tectonics of China-data, maps and evolution[M]. Beijing, Dordrecht Heidelberg London and New York: Springer and Higher Education Press. 1-501.
[42]	Wang T, Tong Y, Jahn B M, et al. 2007. SHRIMP U-Pb zircon geochronology of the Altai No.3 pegmatite, NW China, and its implications for the origin and tectonic setting of the pegmatite[J]. Ore Geology Review, 32: 325-336.
[43]	Wang Y, Li J Y and Sun G H. 2008. Post-collision eastward extrusion and tectonic exhumation along the eastern Tianshan orogen, central Asia: Constraints from dextral strike-slip motion and 40Ar/39Ar geochronological evidence[J]. Journal of Geology, 116: 599-618.
[44]	Xiao W J, Han C M , Yuan C, et al. 2008. Middle Cambrian to Permian subduction-related accretionary orogenesis of Northern Xijiang, NW China: Implications for the tectonic evolution of Central Asia[J]. Journal of Asian Earth Sciences, 32: 102-117.
[45]	Zhang L C, Xiao W J, Qin K Z, et al. 2005. Re-Os isotopic dating of molybdenite and pyrite in the Baishan Mo-Re deposit, eastern Tianshan, NW China, and its geological significance[J]. Mineralium Deposita, 39: 960-969.
[46]	Zonenshain L P, Kuzmin M L and Natapov L M. 1990. Geology of the USSR: A Plate tectonic synthesis[M]. American Geophysical Union, Washington D C. 1-242.
[47]	邱小平. 2002. 碰撞造山带与成矿区划[J]. 地质通报, 21(10): 675-681.

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