郯庐断裂带肥东段早白垩世中期走滑运动的年代学证据

doi:10.11867/j.issn.1001-8166.2015.08.0922

郯庐断裂带肥东段西韦地区和桃花源地区出露了大规模的北北东向韧性剪切带。桃花源地区韧性剪切带显示出2期构造变形的叠加。野外构造和显微构造分析皆指示为左行走滑韧性剪切带。糜棱岩中石英与长石的变形行为指示其变形温度分别为400~450 ℃和500 ℃。通过对这两处走滑剪切带内糜棱岩化花岗岩脉的锆石LA-ICP-MS定年,获得了3个样品的侵位年龄分别为（133.2±1.9）Ma,（131.3±2.0）Ma,（130.3±2.0）Ma。再结合已有的研究成果,认为在128~124 Ma（早白垩世中期）郯庐断裂带发生过左行走滑活动。综合分析表明,郯庐断裂带在晚侏罗世和早白垩世中期分别经历了2期左行走滑活动,而期间和之后的早白垩世则处于伸展活动之中。伸展活动持续较长,控制发育了西侧的合肥盆地及断裂带内一系列岩浆活动;而区域挤压背景下出现的走滑活动则相对短暂。这些演化规律显示该断裂带在晚侏罗世—早白垩世呈现为交替式的走滑和伸展活动。新发现的早白垩世中期走滑活动,与太平洋区伊泽纳崎板块板块运动方向的调整相对应,是大洋板块运动方向短暂调整的构造响应。

关键词: 地貌, 海岸湿地, 潮流, 沉积, 波浪, 盐沼, 植物, 潮间带, 早白垩世走滑活动, 变形岩脉, 郯庐断裂带, 锆石U-Pb定年, 韧性剪切带

A large-scale NNE-striking ductile shear belts are exposed inXiwei and Taohuayuan areasfrom the Feidongsegment of the Tan-Lu Fault zone. There is two phases of deformation in the ductile shear belt from Taohuayuan areas. Field structures and microstructures indicate sinistral ductile shear sense. Deformation behaviors of quartz and feldspar in mylonites from the shear belts demonstrate that deformation temperatures are 400~450 ℃ and ca. 500 ℃, respectively. Three mylonitized granite dikes in the ductile shear zone were dated by the zircon LA-ICP-MS method, and obtained weighted mean ages of (133.2±1.9) Ma,(131.3±2.0) Ma, and (130.3±2.0) Ma, respectively. Combined with previous research results, a sinistralstrike-slip of 128~124 Ma（middle Early Cretaceous）was identified. These results furtherimply that the strike-slip movement of the Tan-Lu Fault Zone took place in Late Jurassic and middle Early Cretaceous respectively since collision of the North and South China plates, and the fault zone was under the setting of extension in earlier and later Early Cretaceous. Extensional movement of the fault zone controlled the development of the Hefei basin to the west and magmatism along the fault zone, and the extensional movement lasted longer than the strike-slip movement. The Tan-Lu Fault Zone presented alternative the strike-slip and extensional movement from the late Jurassic to Early Cretaceous. The middle Early Cretaceous sinistralstrike-slip is a tectonic response to short-term adjustment of the Izanagi Plate motion directions and has a close relationship.

Key words: Geomorphology, Coastal wetland., Tidal flow, Vegetation, Wave, Sedimentation, Intertidal zone, Salt marsh, Ductile shear belt, Tan-Lu Fault Zone, Deformed dikes, Zircon U-Pb dating, Sinistral strike-slipping in middle Early Cretaceous

中图分类号:

P542

[1] Watson M P, Hayward A B, Parkinson D N, et al. Plate tectonics history, basin development and petroleum source rock deposition onshore China[J]. Marine and Petroleum Geology, 1987, 4(3): 205-225.
[2] Xu Jiawei, Zhu Guang, Tong Weixing, et al. Formation and evolution of the Tancheng-Lujiang wrench fault system: A major shear system to the northern of the Pacific Ocean[J]. Tectonophysics, 1987, 134: 273-310.
[3] Okay A I, Sengor A M C. Evidence for intracontinental thrust related exhumation of the ultra-high-pressure rocks in China[J]. Geology, 1992, 20: 411-414.
[4] Zhang Zh M, Liou J G, Coleman R G. An outline of the plate tectonics of China[J]. Geological Society of America Bulletin, 1984, 95: 295-312.
[5] Wan Tianfeng, Zhu Hong, Zhao Lei, et al. Formation and evolution of Tancheng-Lujiang fault zone:A review[J]. Geoscience, 1996, 10(2): 159-168.[万天丰, 朱鸿, 赵磊, 等. 郯庐断裂带的形成与演化: 综述[J]. 现代地质, 1996, 10(2): 159-168.]
[6] Wang Xiaofeng, Li Zhongjian, Chen Bolin, et al. Formation and evolution ofthe Tan-Lu strike-slip fault system and its geological significance[C]∥Zheng Yadong, ed. Proceedings of 30th International Geological Congress. Beijing:Geological Publishing House, 1998:176-196.[王小凤,李中坚, 陈柏林, 等. 郯庐断裂系的形成演化及其地质意义[C]∥郑亚东,编.第30届国际地质大会论文集. 北京: 地质出版社, 1998：176-196.]
[7] Zhu Guang, Wang Yongsheng, Niu Manlan,et al. Synorogenic movement of the Tan-Lu Fault zone[J]. Earth Science Frontiers, 2004, 11(3): 169-182.[朱光,王勇生,牛漫兰,等.郯庐断裂带的同造山运动[J]. 地学前缘, 2004, 11(3): 169-182.]
[8] Yin An, Nie Shangyou. An indentation model for the North and South China collision and the development of the Tan-Lu and Honam Fault system, eastern Asia[J]. Tectonics, 1993, 12（4）: 801-813.
[9] Lin Jinlu, Fuller M. Paleomagnetism, North and South China collision, and the Tan-Lu fault[J]. Philosophical Transactions of the Royal Society, London, 1990, A331: 589-598.
[10] Gilder Stuart A, Hervé Leloup P, Courtillot Vincent, et al. Tectonic evolution of the Tancheng-Lujiang (Tan-Lu) fault via middle Triassic to Early Cenozoic paleomagnetic data[J]. Journal of Geophysical Research, 1999, 104: 15 365-15 390.
[11] Xiao Wenjiao, Zhou Yaoxiu, Yang Zhenyu, et al. Multiple rotation and amalgamation processes of Dabie-TanLu-Sulu orogen[J]. Advances in Earth Science, 2000, 15(2): 147-153.[肖文交, 周烑秀, 杨振宇, 等. 大别—郯庐—苏鲁造山带复合旋转拼贴作用[J]. 地球科学进展, 2000, 15(2): 147-153.]
[12] Li Zhengxiang. Collision between the north and south blocks: A crust-detachment model for suturing in the region east of the Tan-Lu fault[J].Geology, 1994, 22: 739-742.
[13] Chung Sun Lin. Trace element and isotope characteristics of Cenozoic basalts around the Tanlu fault with implications for the eastern plate boundary between North and South China[J]. The Journal of Geology, 1999, 107: 301-312.
[14] Xu Jiawei, Zhu Guang. Tectonic models of the Tan-Lu Fault zone, eastern China[J]. International Geology Review, 1994, 36: 771-784.
[15] Zhu Guang, Song Chuanzhong, Wang Daoxuan, et al. Studies on 40 Ar/ 39 Ar thermochronology of strike-slip time of the Tan-Lu faultzone and their tectonic implications[J]. Science in China (Series D), 2001, 31(3): 250-256.[朱光, 宋传中, 王道轩, 等. 郯庐断裂带走滑时代的 40 Ar/ 39 Ar年代学研究及其构造意义[J]. 中国科学:D辑,2001, 31(3): 250-256.]
[16] Niu Manlan, Zhu Guang, Liu Guosheng, et al. Tectonic setting and deep processes of Mesozoic magmatism in middle-south segment of the Tan-Lu fault[J]. Chinese Journal of Geology, 2002, 37(4): 393-404.[牛漫兰, 朱光, 刘国生, 等.郯庐断裂带中—南段中生代岩浆活动的构造背景与深部过程[J]. 地质科学, 2002, 37(4): 393-404.]
[17] Liu Guosheng, Zhu Guang, Song Chuanzhong, et al. Compressional structures of the Tan-Lu Fault zone and inversion of the Hefei Basin neogene[J]. Geology of Anhui, 2002, 41(2): 81-85.[刘国生, 朱光, 宋传中, 等. 郯庐断裂带新近纪以来的挤压构造与合肥盆地的反转[J]. 安徽地质, 2002, 41(2): 81-85.]
[18] Tang Jiafu, Xu Wei. No huge strike slip in the southern sector of the Tancheng-Lujiang fault—Tectonic from Anhui Province[J]. Geological Review, 2002, 48(5): 449-456.[汤加富, 许卫. 郯庐断裂带南段并无巨大平移——来自安徽境内的证据[J]. 地质论评, 2002, 48(5): 449-456.]
[19] Lin Wei, Michel Faure, Wang Qingchen, et al. Triassic polyphase deformation in the Feidong-Zhangbaling Massif (eastern China) and its place in the collision between the North China and South China blocks [J]. Journal of Asian Earth Sciences, 2005, 25:121-136.
[20] Mercier J L, Hou M J, Vergely P, et al. Structural and stratigraphical constraints on the kinematics history of the southern Tan-Lu fault zone during the Mesozoic Anhui Province, China[J]. Tectonophysics, 2007, 439: 33-66.
[21] Chen Xuanhua, Wang Xiaofeng, Zhang Qing,et al. Geochronologic study on the formation and evolution of Tan-Lu fault[J]. Journal of Chang Chun University of Science and Technology, 2000, 30(3): 215-220.[陈宣华, 王小凤, 张青, 等. 郯庐断裂带形成演化的年代学研究[J]. 长春地质学院学报, 2000, 30(3): 215-220.]
[22] Zhu Guang, Niu Manlan, Liu Guosheng, et al. Structural, magmatic and sedimentary events of the Tan-Lu Fault Belt during its early cretaceous strike-slip movement[J]. Acta Geological Sinica, 2002, 76(3): 325-334.[朱光, 牛漫兰, 刘国生, 等. 郯庐断裂带早白垩世走滑运动中的构造、岩浆、沉积事件[J]. 地质学报,2002, 76(3): 325-334.]
[23] Wang Yongsheng, Zhu Guang, Song Chuanzhong, et al. 40 Ar/ 39 Ar geochronology records of transition fron strike-slip to extention in the Tan-Lu fault zone on eastern terminal of the Dabie mountains[J]. Chinese Journal of Geology, 2006, 41(2): 242-255.[王勇生, 朱光, 宋传中, 等. 大别山东端郯庐断裂带由走滑向伸展运动转换的 40 Ar/ 39 Ar年代学记录[J]. 地质科学, 2006, 41(2): 242-255.]
[24] Zhang Yueqiao, Dong Shuwen. Mesozoic tectonic evolution history of the Tan-Lu Fault zone, China: Advances and new under-standing[J]. Geological Bulletin of China, 2008, 27(9): 1 371-1 390.[张岳桥, 董树文. 郯庐断裂带中生代构造演化史: 进展与新认识[J]. 地质通报, 2008, 27(9): 1 371-1 390.]
[25] Hacker Bradley R, Rratschbacher Lothar, Webb Laura, et al. Exhumation of ultrahigh-pressure continental crust in east central China: Late Triassic-Early Jurassic tectonic unroofing[J]. Journal of Geophtsical Research, 2000,105: 13 339-13 364.
[26] Zhang Qing, Teyssier C, Dunlap J, et al. Oblique collision between North and South China recorded in Zhangbaling and Fucha Shan （Dabie-Sulu transfer zone）[J].Geological Society of America, 2007, 434: 167-206.
[27] Zhu Guang, Liu Guosheng, Niu Manlan, et al. Syn-collisional transform faulting of the Tan-Lu Fault Zone, East China[J].International Journal of Earth Sciences, 2009, 98: 135-155.
[28] Wang Yu. The onset of the Tan-Lu fault movement in eastern China: Constraints from zircon （SHRIMP） and 40 Ar/ 39 Ar dating[J]. Terra Nova, 2006, 18: 423-431.
[29] Sun Xiaomeng, Liu Yongjiang, Sun Qingchun, et al. 40 Ar/ 39 Ar geochronology evidence of srike-slipmovement in Dunhua Mishan Fault zone[J]. Journal of Jilin University, 2008, 38(6): 965-972.[孙晓猛, 刘永江, 孙庆春, 等.敦密断裂带走滑运动的 40 Ar/ 39 Ar年代学证据[J]. 吉林大学学报, 2008, 38(6): 965-972.]
[30] Zhu Guang, Wang Yongsheng, Liu Guosheng, et al. 40 Ar/ 39 Ar dating of strike-slip motion on the Tan-Lu Fault zone, East China[J]. Journal of Structural Geology, 2005, 27: 1 379-1 398.
[31] Zhu Guang, Niu Manlan, Xie Chenglong, et al. Sinistral to normal faulting along the Tan-Lu Fault zone: Evidence for geodynamic switching of the East China continentalmargin[J]. The Journal of Geology, 2010, 118: 277-293.
[32] Zhu Guang, Jiang Dazhi, Zhang Bilong, et al. Destruction of the eastern North China Craton in a backarc setting: Evidence from crustal deformation kinematics[J]. Gondwana Research, 2012,22: 86-103.
[33] Niu Manlan, Zhu Guang, Xie Chenglong, et al. LA-ICP-MS zircon U-Pbages of the granites from the southern segment of the Zhangbaling uplift along the Tan-Lu Fault zone and their tectonic significances[J]. Acta Petrologica Sinica,2008, 24(8): 1 839-1 847.[牛漫兰, 朱光, 谢成龙, 等. 郯庐断裂带张八岭隆起南段花岗岩LA-ICP MS锆石U-Pb年龄及其构造意义[J]. 岩石学报, 2008, 24(8): 1 839-1 847.]
[34] Shi Yonghong, Zhu Guang, Wang Daoxuan, et al. Analysis of sodic amphiboles in the blueschists from the Zhangbaling group across the central part of Anhui Province and its implication for the metamorphic P-T conditions[J]. Acta Mineralogica Sinica, 2007, 27(2): 179-188.[石永红, 朱光, 王道轩, 等.皖中张八岭群“蓝片岩”中钠质角闪石及其变质P-T条件分析[J]. 矿物学报, 2007, 27(2): 179-188.]
[35] Bureau of Geology and Mineral Resources of Anhui Province. Stratigraphy(Lithostratic) of Anhui Province[M]. Wuhan: China University of Geosciences Press,1997: 83-118.[安徽省地质矿产局. 安徽省岩石地层[M]. 武汉：中国地质大学地质出版社, 1997: 83-118.]
[36] Shi Yonghong, Zhu Guang, Wang Daoxuan. Metamorphic P-T evolution for the garnet amphiboles from Feidong group in the south of Zhangbaling uplift across Tan-Lu fault and its influence on tectonics[J]. Acta Petrologica Sinica, 2009, 25(12):3 335-3 345.[石永红, 朱光, 王道轩.郯庐断裂带张八岭隆起南段肥东群石榴角闪岩变质P-T 演化史及对其构造属性的制约[J]. 岩石学报, 2009, 25(12): 3 335-3 345.]
[37] Xu Shutong, Jiang Laili, Liu Yican, et al.Tectonic framework and evolution of the Dabie Mountains in Anhui, eastern China[J]. Acta Geological Sinica, 1992,66(1): 5-13.[徐树桐, 江来利, 刘贻灿, 等. 大别山区（安徽部分）的构造格局和演化过程[J]. 地质学报, 1992, 66(1): 5-13.]
[38] Xu Shutong, Wu Weiping, Lu Yiqun, et al. Low-grade metamorphic in southern Dabie Mountain: The Susong and Zhangbaling group[J]. Geology of Anhui, 2010, 20(1): 5-13.[徐树桐, 吴维平, 陆益群, 等. 大别山南部的低级变质岩: 宿松群和张八岭群[J]. 安徽地质, 2010, 20(1): 5-13.]
[39] Jiang Huichao, Wang Xucheng, Zhou Zuyi, et al. Zircon U-Pb dating and tectonic relevance for igneous rocks in Sulu orogeny[J]. Journal of Tongji University, 2012, 40(2): 297-303.[姜慧超, 王绪诚, 周祖翼, 等. 苏鲁造山带岩浆岩的锆石U-Pb定年及构造意义[J]. 同济大学学报, 2012, 40(2): 297-303.]
[40] Kang Tao, Liu Xiaoyan, Wang Juan, et al. Analysis of metamorphic attribution and geochronology for the Feidongterrane in the east of the Tan-Lu Fault[J]. Acta Petrologica Sinica,2013,29(9): 3 142-3 158.[康涛, 刘晓燕, 王娟, 等.郯庐断裂东侧肥东地块变质属性及年代学研究[J]. 岩石学报, 2013, 29(9): 3 142-3 158.]
[41] Zhao Tian, Zhu Guang, Lin Shaoze, et al. Protolith ages and deformation mechanism of metamorphic rocks in the Zhangbaling uplift segment of the Tan-Lu Fault zone[J]. Science in China (Series D), 2014,44(10): 2 112-2 129.[赵田, 朱光, 林少泽, 等. 郯庐断裂带张八岭隆起段变质岩的原岩时代与变形机制[J]. 中国科学:D辑, 2014, 44(10): 2 112-2 129.]
[42] Li Shuguang, Liu Deliang, Chen Yizhi, et al.Time of the blueschis belt formation in central China[J]. Scientia Geologica Sinica, 1993, 28: 21-27.[李曙光, 刘德良, 陈移之, 等. 中国中部蓝片岩的形成时代[J]. 地质科学, 1993, 28: 21-27.]
[43] Zhu Guang, Niu Manlan, Liu Guosheng, et al. 40 Ar/ 39 Ar dating for the strike-slip movement on the Feidong part of the Tan-Lu Fault belt[J]. Acta Geological Sinica, 2005, 79(3): 303-316.[朱光, 牛漫兰, 刘国生, 等. 郯庐断裂带肥东段走滑运动的 40 Ar/ 39 Ar法定年[J]. 地质学报, 2005, 79(3): 303-316.]
[44] Zhu Guang, Xu Youde, Liu Guosheng, et al. Structural and deformation characteristics of strike-slippings along the middle-southern sector of the Tan-Lu Fault zone[J]. Chinese Journal of Geology, 2006, 41(1): 226-241.[朱光, 徐佑德, 刘国生, 等. 郯庐断裂带中—南段走滑构造特征与变形规律[J]. 地质科学, 2006, 41(1): 226-241.]
[45] Niu Manlan. 40 Ar/ 39 Ar dating of biotite from the Mesozoic intrusions in Zhangbaling area and its geological significance[J]. Chinese Journal of Geology, 2006, 41(2): 217-225.[牛漫兰. 张八岭地区中生代岩体中黑云母的 40 Ar/ 39 Ar年龄及其地质意义[J]. 地质科学, 2006, 41(2): 217-225.]
[46] Xie Chenglong, Zhu Guang, Niu Manlan, et al. LA-ICP-MS Zircon U-Pb ages of the mesozoic volcanic rocks from Chuzhou area and their tectonic significances[J]. Geological Review, 2007, 53(5): 642-655.[谢成龙, 朱光, 牛漫兰, 等. 滁州中生代火山岩LA-ICP MS锆石U-Pb年龄及其构造地质学意义[J]. 地质论评, 2007, 53(5): 642-655.]
[47] Zi Feng, Wang Qiang, Dai Shengqian, et al. Geochronology and geochemistry of Chuzhou and Shangyaopuadakitic intrusive rocks in the eastern area of Anhui Province:Implications for petrogenesis and mineralization[J]. Acta Petrologica Sinaca, 2007, 23(6): 1 485-1 500.[资锋, 王强, 戴圣潜, 等. 皖东滁州、上腰铺埃达克质侵入岩年代学及地球化学特征: 岩石成因与成矿意义[J]. 岩石学报, 2007, 23(6): 1 485-1 500.]
[48] Zi Feng, Wang Qiang, Tang Gongjian, et al. SHRIMPU-Pbzircon geochronology and geochemistry of the Guandian pluton in central Anhui,China:Petrogenesis and geodynamic implications[J]. Geochimica, 2008, 37(5): 462-480.[资锋, 王强, 唐功建, 等. 皖中管店岩体的SHRIMP锆石U-Pb年代学与地球化学：岩石成因和动力学意义[J]. 地球化学, 2008, 37(5): 462-480.]
[49] Ma Fang, Xue Huaimin. SHRIMP zircon U-Pb age of late Mesozoic volcanic rocks from the Chuzhou Basin, eastern Anhui Province, and its geological significance[J]. Acta Petrologica et Mineralogica, 2011, 30(5): 924-934.[马芳, 薛怀民. 皖东滁州盆地晚中生代火山岩的SHRIMP 锆石U-Pb年龄及其地质意义[J]. 岩石矿物学杂志, 2011, 30(5): 924-934.]
[50] Liu Shengao, Li Shuguang, Guo Sushu, et al. The Cretaceous adakitic-basaltic-granitic magma sequence on south-eastern margin of the North China Craton: Implications for lithospheric thinning mechanism[J]. Lithos, 2012, 134/135: 163-178.
[51] Hu Zilong, Yang Xiaoyong, Duan Liuan, et al. Geochronological and geochemical constraints on genesis of the adakitic rocks in Outang, South Tan-Lu Fault Belt (Northeastern Yangtze Block) [J]. Tectonophysics, 2014, 626: 86-104.
[52] Chen Haiyun, Shu Liangshu, Zhang Yunyin, et al. Mesozoic-Cenozoic Tectonic evolution of the Hefei Basin[J].Geological Journal of China Universities, 2004, 10(2): 250-256.[陈海云, 舒良树, 张云银, 等.合肥盆地中新生代构造演化[J]. 高校地质学报, 2004, 10(2): 250-256.]
[53] Li Yunping, Wu Shiguo, Han Wengong, et al. A study on geophysical features of deep structures of the Hefei Basin and the southern Tan-Lu fault zone[J]. Chinese Journal of Geophysics, 2006, 49(1): 115-122.[李云平, 吴时国, 韩文功, 等. 合肥盆地和郯庐断裂带南段深部地球物理特征研究[J]. 地球物理学报, 2006, 49(1): 115-122.]
[54] Zhu Guang, Piao Xuefeng, Zhang Li, et al. Evolution of extensional direction in the Hefei Basin and its dynamic mechanism[J]. Geological Review, 2011, 57(2): 153-166.[朱光, 朴学峰, 张力, 等. 合肥盆地伸展方向的演变及其动力学机制[J]. 地质论评, 2011, 57(2): 153-166.]
[55] Micheal S, Holger S, Renée H, et al. The eastern Tonale fault zone: A ‘natural laboratory’ for crystal plastic deformation of quartz over a temperature range from 250 to 700 ℃[J]. Journal of Geology, 2002, 24: 1 861-1 884.
[56] Mancktelow Neil S, Pennacchioni Giorgio. The influence of grain boundary fluids on the microstructure of quartz-feldspar mylonnites[J]. Journal of Structural Geology,2004, 26: 47-46.
[57] Passchier Cees W, Trouw Rudolph A J. Microtectonics[M]. Berlin: Springer, 2005:24-66.
[58] Xiang Biwei, Zhu Guang, Wang Yongsheng, et al. Mineral deformation thermometer for mylonitization[J]. Advances in Earth Science, 2007, 22(2): 126-135.[向必伟, 朱光, 王勇生, 等. 糜棱岩化过程中矿物变形温度[J]. 地球科学进展,2007, 22(2): 126-135.]
[59] Liu Yongsheng, Gao Shan, Hu Zhaochu. Reappraisement and refinement of zircon U-Pb isotope and trace element analyses by LA-ICP-MS[J]. Chinese Science Bulletin, 2010, 55(15): 1 535-1 546.
[60] Anderson. Correction of common lead in U-Pb analyses that donot report 204 Pb[J]. Chemical Geology, 2002, 192: 59-79.
[61] Hoskin P W O. Trace-element composition of hydrothermal zircon and the alteration of Hadean zircon[J]. Geochimica et Cosmochimica Acta, 2005, 69: 637-648.
[62] Boynron W V. Geochemistry of the rare earth elements: Meteoritestudies[M]∥Henderson P, ed. Rare Earth Element Geochemistry. Amsterdam-Oxford-New York-Tokyo: Elsevier, 1984: 91-94.
[63] Lei Weiyan, Shi Guanghai, Liu Yingxin, et al. Research progress on trace element characteristics of zircons of different origins[J]. Earth Science Frontier, 2013, 20(4): 273-284.[雷玮琰, 施光海, 刘迎新, 等. 不同成因锆石的微量元素特征研究进展[J]. 地学前缘, 2013, 20(4): 273-284.]
[64] Zheng Yongfei, Zhang Shaobing. Formation and evolution of the Precambrian continental crust in south China[J]. Chinese Science Bulletin, 2007, 52(1): 1-10.[郑永飞, 张少兵. 华南前寒武纪大陆地壳的形成和演化[J]. 科学通报,2007, 52(1): 1-10.]
[65] Liu Guosheng, Zhu Guang, Niu Manlan, et al. Meso-cenozoic evolution of the Hefei Basin (eastern part) and its presponse to activities of the Tan-Lu fault zone[J]. Chinese Journal of Geology, 2006, 12(2): 256-269.[刘国生, 朱光, 牛漫兰, 等. 合肥盆地东部中—新生代的演化及其对郯庐断裂带活动的响应[J]. 地质科学, 2006, 12(2): 256-269.]
[66] Huang Fang, Li Shuguang, Dong Feng, et al. High-Mg adakitic rocks in the Dabieorogen, central China: Implications for foundering mechanism of lower continental crust[J]. Chemical Geology, 2008, 255: 1-13.
[67] Zhang Chao, Ma Changqian, Holtz Francois. Origin of high-Mg adakitic magmatic enclaves from the Meichuan pluton, southern Dabieorogen（central China）: Implications for delamination of the lower continental crust and melt-mantle interaction[J]. Lithos, 2010, 119: 467-484.
[68] He Yongsheng, Li Shuguang, Hoefs Jochen, et al. Post-collisional granitoids from the Dabieorogen: New evidence for partial melting of a thickened continental crust[J]. Geochimica et Cosmochimica Acta, 2011, 75: 3 815-3 838.
[69] He Yongsheng, Li Shuguang, Hoefs Jochen, et al. Sr-Nd-Pb isotopic compositions of Early Cretaceous granitoids from the Dabieorogen: Constraints on the recycled lower continental crust[J]. Lithos, 2013, 156/159: 204-217.
[70] Niu Manlan, Zhu Guang, Xie Chenglong, et al. Geochemistry of Late Mesozoic intrusions from the southern segment of Zhangbaling uplift along the Tan-Lu fault zone and its implications for the lithospheric thinning[J]. Acta Petrologica Sinica,2010,26(9): 2 783-2 804.[牛漫兰, 朱光, 谢成龙, 等. 郯庐断裂带张八岭隆起南段晚中生代侵入岩地球化学特征及其对岩石圈减薄的指示[J]. 岩石学报, 2010, 26(9): 2 783-2 804.]
[71] Xie Chenglong, Zhu Guang, Niu Manlan, et al. Zircon U-Pb geochronology of the Late Mesozoic volcanic rocks from the Chaohu-Lujiang segment of the Tan-Lu fault zone[J].Chinese Journal of Geology, 2008, 43(2): 294-308.[谢成龙, 朱光, 牛漫兰, 等. 郯庐断裂带巢湖—庐江段晚中生代火山岩的锆石U-Pb年代学[J]. 地质科学, 2008, 43(2): 294-308.]
[72] Shi Xuefa, Yan Quanshu. Magmatism of typical marginal basins (or back-arc basins) in the West Pacific[J]. Advances in Earth Science, 2013, 28(7): 737-750.[石学法,鄢全树. 西太平洋典型边缘海盆的岩浆活动[J]. 地球科学进展, 2013, 28(7): 737-750.]
[73] Wu Jianhua, Xie Kairui, Wu Rengui, et al. The new progress in the study of Mesozoic rhyolite-trachyte assemblageand hydrothermal-type uranium mineralization in eastern China[J]. Advances in Earth Science, 2014, 29(12): 1 372-1 382.[巫建华,解开瑞,吴仁贵,等.中国东部中生代流纹岩—粗面岩组合与热液型铀矿研究新进展[J]. 地球科学进展, 2014, 29(12): 1 372-1 382.]
[74] Zhu Rixiang, Zheng Tianyu. Destruction geodynamics of the North China Craton and its Paleoproterozoic plate tectonics[J]. Chinese Science Bulletin,2009, 14(14): 1 950-1 961.[朱日祥,郑天愉.华北克拉通破坏机制与古元古代板块构造体系[J].科学通报, 2009, 14(14): 1 950-1 961.]
[75] Engebretson D C, Cox A, Gorden R G. Relative motions between oceanic and continental plates in the Pacific Basin[J]. The Geological Society of America (Special Paper), 1985, 206: 1-59.

[1]	孙华山,杨辉. 远喷口型 SEDEX铅锌矿床最新研究进展及发展趋势[J]. 地球科学进展, 2021, 36(7): 663-670.
[2]	柯思茵,张冬丽,王伟涛,王孟豪,段磊,杨敬钧,孙鑫,郑文俊. 青藏高原东北缘晚更新世以来环境变化研究进展[J]. 地球科学进展, 2021, 36(7): 727-739.
[3]	吴晓川,欧阳黎明,郭晓中,黄焱羚,黄振华,李伟. 海域沉积物蠕动地貌的研究现状与展望[J]. 地球科学进展, 2021, 36(7): 763-772.
[4]	范成新, 刘敏, 王圣瑞, 方红卫, 夏星辉, 曹文志, 丁士明, 侯立军, 王沛芳, 陈敬安, 游静, 王菊英, 盛彦清, 朱伟. 近 20年来我国沉积物环境与污染控制研究进展与展望[J]. 地球科学进展, 2021, 36(4): 346-374.
[5]	李向东. 复合流沉积特征的谱系研究现状及其理论框架[J]. 地球科学进展, 2021, 36(4): 375-389.
[6]	董治宝, 李超, 吕萍, 胡光印. 侵蚀型沙丘：来自火星的启示[J]. 地球科学进展, 2021, 36(2): 125-138.
[7]	王大伟,孙悦,司少文,吴时国. 海底周期阶坎研究进展与挑战[J]. 地球科学进展, 2020, 35(9): 890-901.
[8]	董治宝,吕萍,李超,胡光印. 火星风条痕特征及其形成机制[J]. 地球科学进展, 2020, 35(9): 902-911.
[9]	董治宝,吕萍,李超. 火星风沙地貌研究方法[J]. 地球科学进展, 2020, 35(8): 771-788.
[10]	赵仁杰,鄢全树,张海桃,关义立,葛振敏,袁龙,闫施帅. 全球俯冲沉积物组分及其地质意义[J]. 地球科学进展, 2020, 35(8): 789-803.
[11]	李旭明,李来峰,王浩贤,王野,陈旸. 土壤中次生与碎屑组分的差异性剥蚀[J]. 地球科学进展, 2020, 35(8): 826-838.
[12]	董治宝,吕萍,李超,胡光印. 火星独特风沙地貌之横向沙脊[J]. 地球科学进展, 2020, 35(7): 661-677.
[13]	吕红华,李有利. 不断融入新元素的我国构造地貌学研究：以天山为例[J]. 地球科学进展, 2020, 35(6): 594-606.
[14]	李琼,王姣姣,潘保田. 构造和降水对祁连山北麓冲积扇演化影响的数值模拟研究[J]. 地球科学进展, 2020, 35(6): 607-617.
[15]	秦磊,毛金昕,倪凤玲,徐少华,李小刚,蔡长娥,尚文亮,刘家恺. 浅谈深水块体搬运复合体的结构、成因分类以及识别方法[J]. 地球科学进展, 2020, 35(6): 632-642.

阅读次数

全文

摘要

Geochronological Evidence for the Middle Early Cretaceous Strike-slip Movement from the Feidong Segment of the Tan-Lu Fault Zone