| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
YAN Songtao, WU Qingsong, LI Hu, QIN Meng, MAO Shidong, LI Yusheng, ZHANG Yong. 2021. Material composition and oceanic basin evolution process of the Litang mélange in the middle part of the Ganzi-Litang ophiolite mélange belt[J]. Geology in China, 48(6): 1875-1895. doi: 10.12029/gc20210617
|
Material composition and oceanic basin evolution process of the Litang mélange in the middle part of the Ganzi-Litang ophiolite mélange belt
-
Abstract
The Litang mélange, in which conserves complete mélange system is developed, including remnant of ophiolite, oceanic island blocks, intra-oceanic arc blocks, flysch formation, remnant of rift, high-ultrahigh pressure belt, is located in the middle part of the Ganzi-Litang ophiolite mélange belt around Xinlong-Litang county town, and is an ideal object for the restoring and inversing of the evolution of the Ganzi-Litang ocean basin. On the basis of previous studies and combined with recent research results, the mineral composition, tectonic environment and formation age of Litang melange are described in detail, which further constrain the space-time, nature and evolution of Ganzi-Litang ocean basin. The results of LA-ICP-MS zircon U-Pb dating show that the age of ophiolite is (346±17)Ma, (286.2±5.1)Ma, (219.5±2.2)Ma, (216.1±2.3)Ma, the age of oceanic island is (271±10)Ma, (245.1±1.5)Ma, (211.8±1.8)Ma, and the latest age of detrital zircon is (196±3)Ma in the siltstone interlayer of Ruihuanshan Formation in Jurassic. Combined with a large number of fossil identification results, the analysis shows that the age of the Litang mélange probably ranges from the Middle Devonian to the Early Cretaceous, indicating that it records the continuous evolution of Ganzi-Litang ocean basin from the Middle Devonian to early Cretaceous. With all the achievement mentioned above, the formation and evolution mode of the Ganzi-Litang ocean basin from the Late Paleozoic to the Mesozoic is approximately established.
-
-
References
Cai Xiongfei, Cai Hailei, Liu Demin. 2006. Stratigraphic sequences of mixtite series in oceanic islands of orogenic belts and the significance of study[J]. Marine Geology Letters, 22(4): 9-11 (in Chinese with English abstract). Defant M J, Kepezhinskas P. 2001. Evidence suggests slab melting in arc magmas[J]. Eos, Transactions American Geophysical Union. 82(6): 65-69. Deng Jinfu, Liu Cui, Feng Yanfang, Xiao Qinhui, Su Shangguo, Zhao Guochun, Kong Weiqiong, Cao Wenyan. 2010. High magnesian andesitic/dioritic rocks (HMA) and magnesian andesitic/dioritic rocks (MA): Two igneous rock types related to oceanic subduction[J]. Geology in China, 37(4): 1112-1118 (in Chinese with English abstract). Deng Jinfu, Xiao Qinghui, Su Shangguo, Liu Cui, Zhao Guochun, Wu Zongxu, Liu Yong. 2007. Igneous petrotectonic assemblages and tectonic settings: A discussion[J]. Geological Journal of China Universities, 11: 392-402 (in Chinese with English abstract). Dilek Y, Furnes H. 2011. Ophiolite genesis and global tectonics: Geochemical and tectonic fingerprinting of ancient oceanic lithosphere[J]. Geological Society of America Bulletin, 123: 387-411. doi: 10.1130/B30446.1 Feng Qinglai, Zhang Shitao, Ge Mengchun, Yan Chengmin, Yu Hua, Duan Guoxi, Bao Junyue. 2002. Radiolarians from Hagong formation in Zhongdian, NW Yunnan, and its tectono-paleogeographic implications[J]. Chinese Journal of Geology, 37(1): 70-80 (in Chinese with English abstract). Fan W M, Wang Y J, Peng T P, Miao L C, Guo F. 2004. Ar-Ar and U-Pb geochronology of Late Paleozoic basalts in western Guangxi and its constraints on the eruption age of Emeishan basalt magmatism[J]. Chinese Science Bulletin, 49(18): 1892-1900 (in Chinese). doi: 10.1360/csb2004-49-18-1892 Fan W M, Zhang C H, Wang Y J, Guo F, Peng T P. 2008. Geochronology and geochemistry of Permian basalts in western Guangxi, Southwest China: Evidence for plume-lithosphere interaction[J]. Lithos, 102(1/2): 218-236. Fan J J, Li C, Xie C M, Wang M. 2014. Petrology, geochemistry, and geochronology of the Zhonggang ocean island, northern Tiber: Implications for the evolution of the Bangongco-Nujiang oceanic arm of Neo-Tethys[J]. International Geology Review, 56: 1504-1520. doi: 10.1080/00206814.2014.947639 Fan J J, Li C, Wang M, Xie C M, Peng T P, Liu H Y. 2018. Material composition, age and significance of the Dong Co Melange in the Bangong Co-Nujiang suture zone[J]. Geological Bulletin of China, 37(8): 1417-1427 (in Chinese with English abstract). Hou Zengqian, Mo Xuanxue, Tan Jing, Hu Shihua, Luo Zaiwen. 1993. The eruption sequences of basalts in the Yidun island-Arc, Sanjiang region and evolution of rift to island-Arc[J]. Acta Geoscientica Sinica, (1): 49-67(in Chinese with English abstract). Hou Zengqian, Hou Liwei, Ye Qingtong, Liu Fulu, Tang Guoguang. 1995. Tectonomagmatic Evolution of Yidun Island Arc and Volcanogenic Massive Sulfide Deposits in Sanjiang Region, S.W. China[M]. Beijing: Seismological Press, 1-120 (in Chinese with English abstract). Hou Zengqian, Lu Jiren, Li Hongyang, Wang Denghong, Lü Qingtian. 1996. Tectonic evolution of the Tethys in south western China: Is controlled by plume tectonies[J]. Acta Geologica Sinica, 17(4): 439-453 (in Chinese with English abstract). Hou Zengqian, Yang Yueqing, Wang Haiping. 2003. Collision Orogenic Process and Metallogenic System of the Yidun Island Arc in Sanjiang[M]. Beijing: Geological Publishing House (in Chinese with English abstract). Hou Zengqian, Yang Yueqing, Qu Xiaoming, Huang Dianhao, Lu Qingtian, Wang Haiping, Yu Jinjie, Tang Shaohua. 2004. Tectonic evolution and mineralization systems of the Yidun Arc Orogen in Sanjiang Region, China[J]. Acta Geologica Sinica, 78(1): 109-120(in Chinese with English abstract). Hou Z Q, Zaw K, Pan G T, Mo X X, Xu Q, Hu Y Z, Li X Z. 2007. Sanjiang Tethyan metallogenesis in S.W. China: Tectonic setting, metallogenic epochs and deposit types[J]. Ore Geology Reviews, 31(1): 48-87. He B, Xu Y G, Huang X L, Luo Z Y, Shi Y R, Yang Q J, Yu S Y. 2007. Age and duration of the Emeishan flood volcanism, SW China: Geochemistry and SHRIMP zircon U-Pb dating of silicic ignimbrites, post-volcanic Xuanwei Formation and clay tuff at the Chaotian section[J]. Earth and Planetary Science Letters, 255(3/4): 306-323. He Binghui. 2016. Research progress on some issues on the Emeishan Large Igneous Province[J]. Advances in Earth Science, 31(1): 23-42 (inChinese with English abstract). Ishizuka O, Tani K, Reagan M. 2014. KIzu- Bonin- Mariana forearc Crust as a modern ophiolite Analogue[J]. Elements, 10: 115-120. doi: 10.2113/gselements.10.2.115 Liu Baotian, Jiang Yaoming, Qu Jingchuan. 1983. The Discovery of A Palaeoceanic Crust Strip along the Line from Liangtang to Ganzi in Sichuan and its Significance on Plate Tectonics[C]//Contribution to the Geology of the Qinghai-Xizang(Tibet) Plateau(12). Beijing: Geological Publishing House, 119-128 (in Chinese with English abstract). Liu Zengqian, Li Xingzhen, Ye Qingtong. 1993. The Division of Tectono Magmatic Belt and Distribution of Mineral Resources in Sanjiang Area[M]. Beijing: Geological Publishing House (in Chinese with English abstract). Li Xingzhen, Liu Wenjun, Wang Yizhao, Zhu Qinwen. 1999. Tectonic Evolution and Metallogenesis of Tethys in Sanjiang area, Southwest China(pandect)[M]. Beijing: Geological Publishing House (in Chinese with English abstract). Liang Bin, Feng Qinglai, Wang Quanwei, Guo Jianqiu, Zhong Changhong, LI Zhenjiang. 2001. Latin radiolaria, siliceous rocks and their tectonic evolution significance in Xianshuihe fault zone, western Sichuan[J]. Science in China(Series D), 34(7): 644-648 (in Chinese). Li Cai. 2008. A Review on 20 Years' Study of the Longmu Co-Shuanghu-LancangRiver Suture Zone in Qinghai-Xizang(Tibet) Plateau[J]. Geological Review, 54(1): 106-119(in Chinese with English abstract). Li Wenchang. 2010. Mineralization Theory and Exploration Technology of Multi-Island Arc Basin-Collision Orogenesis in Southwest China[M]. Beijing: Geological Publishing House(in Chinese with English abstract). Liu H C, Wang Y J, Li Z H, Zi J W, Huangfu P P. 2018. Geodynamics of the Indosinian orogeny between the South China and Indochina blocks: Insights from latest Permian-Triassic granitoids and numerical modeling[J]. GSA Bulletin, 1-18. Mo Xuanxue, Lu Fengxiang, Shen Shangyue. 1993. Sanjiang Tethyan Volcanism and Related Mineralization[M]. Beijing: Geological Publishing House, 1-267(in Chinese with English abstract). Niu Wenchao, Xin Houtian, Duan Lianfeng, Wang Genhou, Zhao Zelin, Zhang Guozhen, Zheng Yilong. 2019. The identification and subduction polarity of the Baiheshan ophiolite mélanges belt in the Beishan area, Inner Mongolia-New understanding based on the geological map of Qinghegou Sheet (1: 50000)[J]. Geology in China, 46(5): 977-994 (in Chinese with English abstract) Pan Guitang, Chen Zhiliang, Li Xingzhen, Yan Yangji, Xu Qiang, Jiang Xinsheng, Wu Yinglin, Luo Jianlin, Zhu Tongxing, Peng Yongmin. 1997. The Formation and Evolution of Eastern Tethys[M]. Beijing: Geological Publishing House, 13: 69-107 (in Chinese with English abstract). Peng Dong, Lin Li, Wang Quanwei, Kan Zezhong, Fu Xiaofang, Peng Bo. 2011. The discovery of manganese nodules in Garze-Litang suture zone[J]. Geology in China, 38(2): 442-450 (in Chinese with English abstract). Pan Guitang, Xiao Qinghui. 2017. The Tectonics of China[M]. Beijing: Geological Publishing House, 63-82 (in Chinese with English abstract). Qiu L, Yan D P, Yang W X, Wang J B, Tang X L, Ariser S. 2016. Early to Middle Triassic sedimentary records in the Youjiang Basin, South China: Implications for Indosinian orogenesis[J]. Journal of Asian Earth Sciences, 141(A15): 125-139. Reid A J, Wilson C J L, Liu S. 2005a. Structural evidence for the Permo-Triassic tectonic evolution of the Yidun Arc, eastern Tibetan Plateau[J]. Journal of Structural Geology, 27: 119-137. doi: 10.1016/j.jsg.2004.06.011 Reid A J, Wilson C J L, Phillips D, Liu Shun. 2005b. Mesozoic cooling across the Yidun Arc, central-eastern Tibetan Plateau: A reconnaissance 40Ar/39Ar study[J]. Tectonophysics, 398: 45-66. doi: 10.1016/j.tecto.2005.01.002 Roger F, Jolivet M, Malavieile J. 2010. The tectonic evolution of the songpan-Garzê (North Tibet) and adjacent areas from Proterozoic to Present: A synthesis[J]. Journal of Asian Earth Sciences, 39: 254-269 doi: 10.1016/j.jseaes.2010.03.008 Sun S S, Mcdonough W F. 1989. Chemical and isotopic systematics of oceanic basalts: Implications for mantle composition and processes[C]//Saunders A D, Norry M J(eds.). Magmatism in the Ocean Basins[J]. Geological Society, London, Special Publications, 42(1): 313-345. Sajona F G, Maury R C, Bellon H, Cotton J, Defant M J. 1996. High field strength element enrichment of Pliocene-Pleistocene island arc basalts, Zamrboanga Peninsula, western Mindanao (Philippines)[J]. Journal of Petrology, 37(3): 693-726. doi: 10.1093/petrology/37.3.693 Tatsumi Y. 2001. Geochemical modeling of partial melting of subducting sediments and subsequent melt mantle interaction: Generation of high-Mg andesites in the Setouchi volcanic belt, southwest Japan[J]. Geology, 29(4): 323-326. doi: 10.1130/0091-7613(2001)029<0323:GMOPMO>2.0.CO;2 Wang Liancheng, Li Dazhou, Zhang Qi, Zhang Kuiwu. 1985. Ophiolitic melange in Litang, Sichuan Province[J]. Acta Petrologica Sinica, 1(2): 17-28 (in Chinese with English abstract). Wei Yongfeng, Luo Senlin. 2003. Geological features of granitoids in the central Garze-Litang suture zone[J]. Acta Geologca Sichuan, 23(1): 5-9 (in Chinese with English abstract). Wei Yongfeng, Luo Shenlin. 2004a. Division and composition of the non-Smithian strata in the middle part of the Garze-Litang suture zone, western Sichuan[J]. Sedimentary Geology and Tethyan Geology, 24(4): 21-30 (in Chinese with English abstract). Wei Yongfeng, Luo Shenlin, Zhou Youyun, Gou Yongdong, Zhu Shihua. 2004b. Discovery of garnet- humite- hornblende schist in ophiolite suite and its geological significance in the Garz-Litang Suture Zone[J]. Acta Geologica Sichuan, 24(1): 1-3 (in Chinese with English abstract). Wang Baodi, Wang Liquan, Wang Dongbing, Zhang Wanping. 2011. Zircons U-Pb dating of volcanic rocks from Renzhixueshan Formation in Shangdie rift basin of Sanjiang area and its geological implications[J]. Acta Petrologica et Mineralogica, 30(1): 25-33 (in Chinese with English abstract). Wang Jinfang, Li Yingjie, Li Hongyang, Dong Peipei. 2018. The discovery of the Early Permian high-Mg diorite in Meilaotewula SSZ ophiolite of Inner Mongolia and and its Intra-oceanic Subduction[J]. Geology in China, 45(4): 706-719(in Chinese with English abstract). Xia B, Chen G W, Wang R, Wang Q. 2008. Seamount volcanism associated with the Xigaze ophiolite, Southern Tibet[J]. Journal of Asian Earth Sciences, 32(5): 396-405. Xie Jihai, Hu Zhengxiang, Mao Xinwu, Kong Lingyao, Yang Qingxiong, Yang Cheng, Guo Pan. 2019. The discrimination of Jinningian MORB-like basalt and intra-oceanic subduction in the Dahongshan area, Northern Hubei[J]. Geology in China, 46(6): 1496-1511(in Chinese with English abstract). Yan Quanren, Wang Zongqi, Liu Shuwen, Li Qiugen, Zhang Hongyuan, Wang Tao, Liu Dunyi, Shi Yuruo, Jian Ping, Wang Jianguo, Zhang Dehui, Zhao Jian. 2005. Opening of the Tethys in Southwest China and its significance to the breakup of East Gondwanaland in Late Paleozoic: Evidence from SHRIMP U-Pb zircon analyses for the Garze ophiolite block[J]. Chinese Science Bulletin, 50(3): 256-264 (in Chinese with English abstract). doi: 10.1007/BF02897536 Yang Wenqiang, Feng Qinglai, Liu Guichun. 2010. Radiolarian fauna and geochemical characters of the cherts from Garz-Litang tectonic belt and its tectono-paleogeographic Significance[J]. Acta Geologica Sinica, 84(1): 78-89 (in Chinese with English abstract). Yang T N, Hou Z Q, Wang Y, Zhang H R, Wang Z L. 2012. Late Paleozoic to Early Mesozoic tectonic evolution of northeast Tibet: Evidence from the Triassic composite western Jinsha-Garzê-Litang suture[J]. Tectonics, 31: 1-20. Yang T N, Ding Y, Zhang H R, Fan J W, Liang M J, Wang X H. 2014. Two-phase subduction and subsequent collision defines the Paleotethyan tectonics of the southeastern Tibetan Plateau: Evidence from zircon U-Pb dating, geochemistry, and structural geology of the Sanjiang orogenic belt, southwest China[J]. Geological Society of America Bulletin, 126(11/12): 1654-1682. Yan Songtao, Tan Changhai, Duan Yanghai, Dai Xuejian. 2018. Geochemical Characteristics and Sedimentary Environment of siliceous rocks in the Litang Area of the Ganzi-Litang Ophiolite Melange Belt[J]. Geological Science and Technology Information, 37(3): 21-27 (in Chinese with English abstract). Yan Songtao, Qin Meng, Duan Yanghai, Wen Lang. 2019a. Identification of the Permian Ocean island rock association from the Litang area in Sichuan Province and their tectonic significance: Constraints from petrology, geochemistry and geochronology[J]. Acta Geologica Sinica, 93(2): 381-393 (in Chinese with English abstract). Yan Songtao, Duan Yanghai, Tan Changhai, Wen Lang. 2019b. Identification of the Middle Triassic Ocean island rock association in the Ganzi-Litang ophiolite mélange zone and their tectonic significance: Constraints from petrology, geochemistry and geochronology[J]. Acta Geoscientica Sinica, 40(6): 816-826 (in Chinese with English abstract). Yan Songtao, Qin Meng, Tan Changhai, Liu Longqiang. 2019c. Identification of Late Paleozoic siliceous rocks in the middle part of the Ganzi-Litang Ophiolite Mélange Belt and its geological significance[J]. Acta Geologica Sinica, 93(9): 2197-2208 (in Chinese with English abstract). Yan Songtao, Wu Qingsong, Tan Changhai, Liu Longqiang, Zhang Yong, Li Yusheng. 2020. Characteristics of granodiorite, zircon U-Pb age and accretionary wedge arc magmatism in Litang area, Sichuan Province[J/OL]. Geology in China: 1-25. http://kns.cnki.net/kcms/detail/11.1167.p.20200206.1542.006.html(in Chinese with English abstract). Zou Guangfu. 1995. Ductile shear zone and its gold ore control in Garze-Litang fracture zone[J]. Acta Geologica Sichuan, (1): 10-15 (in Chinese with English abstract). Zhang Nengde, Cao Yawen, Liao Yuan'an, Zhao Yong, Zhang Huaiju, Hu Daoqing, Zhang Rui, Wang Linzhang. 1998. Geology and Metallogeny in Garze-Litang Rift Zone[M]. Beijing: Geological Publishing House, 1-119 (in Chinese with English abstract). Zhang Shitao, Feng Qinglai, Wang Yizhao. 2000. Devonian deep-water sediments in Garze-Litang tectionic belt[J]. Geological Science and Technology information, 19(3): 17-20 (in Chinese with English abstract). Zhai Q G, Jahn, B M, Su L, Mo X X, Wang K L, Tang S H, Lee H Y. 2013a. The Carboniferous ophiolite in the middle of the Qiangtang terrane, Northern Tibet: SHRIMP U-Pb dating, geochemical and Sr-Nd-Hf isotopic characteristics[J]. Lithos, 168-169: 186-199. doi: 10.1016/j.lithos.2013.02.005 Zhai Q G, Jahn B M, Su L, Wang J, Mo X X, Lee H Y, Wang K L, Tang S H. 2013b. Triassic arc magmatism in the Qiangtang area, northern Tibet: Zircon U-Pb ages, geochemical and Sr-Nd-Hf isotopic characteristics, and tectonic implications[J]. Journal of Asian Earth Sciences, 63: 162-178. doi: 10.1016/j.jseaes.2012.08.025 Zhang Wen, Sun Chuanmin, Dai Zongming, Lei Ting, Xu Su. 2012. A study on the ophiolite along Tongxiao-Litang line of Ganzi-Litang conjunction zone[J]. Yunnan Geology, (3): 407-412 (in Chinese with English abstract). Zhang Zhaochong. 2009. Discussion on some important issues of Emeishan igneous province[J]. Geology in China, 36 (3): 634-646 (in Chinese with English abstract). 蔡雄飞, 蔡海磊, 刘德民. 2006. 造山带洋岛混杂岩地层序列和研究意义[J]. 海洋地质动态, 22(4): 9-11. doi: 10.3969/j.issn.1009-2722.2006.04.003 邓晋福, 刘翠, 冯艳芳, 肖庆辉, 苏尚国, 赵国春, 孔维琼, 曹文燕. 2010. 高镁安山岩/闪长岩类(HMA)和镁安山岩/闪长岩类(MA): 与洋俯冲作用相关的两类典型的火成岩类[J]. 中国地质, 37(4): 1112-1118. doi: 10.3969/j.issn.1000-3657.2010.04.025 邓晋福, 肖庆辉, 苏尚国, 刘翠, 赵国春, 吴宗絮, 刘勇. 2007. 火成岩组合与构造环境讨论[J]. 高校地质学报, 11: 392-402. doi: 10.3969/j.issn.1006-7493.2007.03.009 冯庆来, 张世涛, 葛孟春, 严城民, 余华, 段国玺, 包俊跃. 2002. 滇西北中甸地区哈工组放射虫及其构造古地理意义[J]. 地质科学, 37(1): 70- 78. 范蔚茗, 王岳军, 彭头平, 苗来成, 郭峰. 2004. 桂西晚古生代玄武岩Ar-Ar和U-Pb年代学及其对峨眉山玄武岩省喷发时代的约束[J]. 科学通报, 49(18): 1892-1900. doi: 10.3321/j.issn:0023-074X.2004.18.013 范建军, 李才, 王明, 解超明, 彭头平, 刘海永. 2018. 班公湖-怒江缝合带洞错混杂岩物质组成、时代及其意义[J]. 地质通报, 37(8): 1417-1427. 侯增谦, 莫宣学, 谭劲, 胡世华, 罗再文. 1993. "三江"义敦岛弧带玄武岩喷发序列与裂谷-岛弧转化[J]. 地球学报, (1): 49-67. 侯增谦, 侯立纬, 叶庆同, 刘福禄, 唐国光. 1995. 三江地区义敦岛弧构造-岩浆演化与火山成因块状硫化物矿床[M]. 北京: 地震出版社, 1-120. 侯增谦, 卢记仁, 李红阳, 王登红, 吕庆田. 1996. 中国西南特提斯构造演化-幔柱构造控制[J]. 地球学报, 17(4): 439-453. 侯增谦, 杨岳清, 王海平. 2003. 三江义敦岛弧碰撞造山过程与成矿系统[M]. 北京: 地质出版社. 侯增谦, 杨岳清, 曲晓明, 黄典豪, 吕庆田, 王海平, 余金杰, 唐绍华. 2004. 三江地区义敦岛弧造山带演化和成矿系统[J]. 地质学报, 78(1): 109-120. 何冰辉. 2016. 关于峨眉山大火成岩省一些问题的研究现状[J]. 地球科学进展, 31(1): 23-42. 刘宝田, 江耀明, 曲景川. 1983. 四川理塘-甘孜一带古洋壳的发现及其对板块构造的意义[C]//青藏高原地质文集(12). 北京: 地质出版社, 119-128. 刘增乾, 李兴振, 叶庆同. 1993. 三江地区构造岩浆带的划分与矿产分布规律[M]. 北京: 地质出版社. 李兴振. 1999. 西南三江地区特提斯构造演化与成矿: 总论[M]. 地质出版社. 梁斌, 冯庆来, 王全伟, 郭建秋, 钟长洪, 李振江. 2001. 川西鲜水河断裂带拉丁期放射虫、硅质岩及构造演化意义[J]. 中国科学(D辑), 34(7): 644-648. 李才. 2008. 青藏高原龙木错-双湖-澜沧江板块缝合带研究二十年[J]. 地质论评, 54(1): 106-119. 李文昌. 2010. 西南"三江"多岛弧盆-碰撞造山成矿理论与勘查技术[J]. 北京: 地质出版社. 莫宣学, 路凤香, 沈上越. 1993. 三江特提斯火山作用与成矿[M]. 北京: 地质出版社, 1-267. 牛文超, 辛后田, 段连峰, 王根厚, 赵泽霖, 张国震, 郑艺龙. 2019. 内蒙古北山地区百合山蛇绿混杂岩带的厘定及其洋盆俯冲极性-基于1: 5万清河沟幅地质图的新认识[J]. 中国地质, 46(5): 977-994. 潘桂棠, 陈智梁, 李兴振, 颜仰基, 徐强, 江新胜, 吴应林, 罗建宁, 朱同兴, 彭勇民. 1997. 东特提斯地质构造形成演化[M]. 北京: 地质出版社, 13: 69-107 潘桂棠, 肖庆辉. 2017. 中国大地构造[M]. 北京: 地质出版社, 63-82. 彭东, 林丽, 王全伟, 阚泽忠, 付小方, 彭波. 2011. 甘孜-理塘结合带锰结核的发现及其地质意义[J]. 中国地质, 38(2): 442-450. doi: 10.3969/j.issn.1000-3657.2011.02.018 王连城, 李达周, 张旗, 张魁武. 1985. 四川理塘蛇绿混杂岩——一个以火山岩为基质的蛇绿混杂岩[J]. 岩石学报, 1(2): 17-28. doi: 10.3321/j.issn:1000-0569.1985.02.004 魏永峰, 罗森林. 2003. 甘孜-理塘结合带中部花岗岩的地质特征[J]. 四川地质学报, 23(1): 5-9. doi: 10.3969/j.issn.1006-0995.2003.01.002 魏永峰, 罗森林. 2004a. 甘孜-理塘结合带中段非史密斯地层的划分及组分特征[J]. 沉积与特提斯地质, 24(4): 21-30. 魏永峰, 罗森林, 周幼云, 勾永东, 朱世华. 2004b. 甘孜-理塘结合带中段蛇绿岩中石榴硅镁石角闪片岩首次发现及地质意义[J]. 四川地质学报, 24(1): 1-3. 王保弟, 王立全, 王冬兵, 张万平. 2011. 三江上叠裂谷盆地人支雪山组火山岩锆石U-Pb定年与地质意义[J]. 岩石矿物学杂志, 30(1): 25-33. doi: 10.3969/j.issn.1000-6524.2011.01.003 王金芳, 李英杰, 李红阳, 董培培. 2018. 内蒙古梅劳特乌拉蛇绿岩中早二叠世高镁闪长岩的发现及洋内俯冲作用[J]. 中国地质, 45(4): 706-719. 谢纪海, 胡正祥, 毛新武, 孔令耀, 杨青雄, 杨成, 郭盼. 2019. 鄂北大洪山晋宁期MORB-like玄武岩的识别与洋内俯冲作用[J]. 中国地质, 46(6): 1496-1511. 闫全人, 王宗起, 刘树文, 李秋根, 张宏远, 王涛, 刘敦一, 石玉若, 简平, 王建国, 张德会, 赵建. 2005. 西南三江特提斯洋扩张与晚古生代东冈瓦纳裂解: 来自甘孜蛇绿岩辉长岩的SHRIMP年代学证据[J]. 科学通报, 50(3): 256-264. 杨文强, 冯庆来, 刘桂春. 2010. 滇西北甘孜-理塘构造带放射虫地层、硅质岩地球化学及其构造古地理意义[J]. 地质学报, 84(1): 78-89. doi: 10.3969/j.issn.1004-9665.2010.01.011 严松涛, 谭昌海, 段阳海, 代雪健. 2018. 甘孜-理塘蛇绿混杂岩带理塘地区硅质岩地球化学特征及沉积环境探讨[J]. 地质科技情报, 37(3): 21-27. 严松涛, 秦蒙, 段阳海, 文浪. 2019a. 四川理塘地区二叠纪洋岛型岩石组合的识别及其构造意义: 来自岩石学、地球化学和年代学证据[J]. 地质学报, 93(2): 381-393. 严松涛, 段阳海, 谭昌海, 文浪. 2019b. 甘孜-理塘蛇绿混杂岩带中三叠世洋岛型岩石组合的识别及其构造意义——来自岩石学、地球化学和年代学证据[J]. 地球学报, 40(6): 816-826. 严松涛, 秦蒙, 谭昌海, 刘陇强. 2019c. 甘孜-理塘蛇绿混杂岩带中段晚古生代硅质岩的识别及其地质意义[J]. 地质学报, 93(9): 2197-2208. 严松涛, 吴青松, 谭昌海, 刘陇强, 张勇, 李余生. 2020. 四川理塘地区花岗闪长岩特征、锆石U-Pb年龄及其增生楔弧岩浆活动[J/OL]. 中国地质: 1-25. http://kns.cnki.net/kcms/detail/11.1167.p.20200206.1542.006.html. 邹光富. 1995. 甘孜-理塘断裂带中韧性剪切带特征及其对金矿的控制作用[J]. 四川地质学报, (1): 10-15. 张能德, 曹亚文, 廖远安, 赵勇, 张怀举, 胡道清, 张睿, 王林彰. 1998. 四川甘孜-理塘裂谷带地质与成矿[M]. 北京: 地质出版社, 1-119. 张世涛, 冯庆来, 王义昭. 2000. 甘孜-理塘构造带泥盆系的深水沉积[J]. 地质科技情报, 19(3): 17- 20. doi: 10.3969/j.issn.1000-7849.2000.03.004 张招崇. 2009. 关于峨眉山大火成岩省一些重要问题的讨论[J]. 中国地质, 36(3): 634-646. doi: 10.3969/j.issn.1000-3657.2009.03.010 张文, 孙传敏, 戴宗明, 雷停, 徐速. 2012. 甘孜-理塘结合带通宵-理塘沿线蛇绿岩研究[J]. 云南地质, (3): 407-412. -
Access History
Figures(11)
Tables(3)
Export File
Citation
YAN Songtao, WU Qingsong, LI Hu, QIN Meng, MAO Shidong, LI Yusheng, ZHANG Yong. 2021. Material composition and oceanic basin evolution process of the Litang mélange in the middle part of the Ganzi-Litang ophiolite mélange belt[J]. Geology in China, 48(6): 1875-1895. doi: 10.12029/gc20210617
Format
Content
DownLoad:
-
Figure 1.
Geotectonic location map of the study area (a, after Pan Guitang et al., 2013) and geological map of the Litang area in the west Sichuan(b)
-
Figure 2.
Geological section of Litang ophiolite of the Xiaba area in Litang County, Sichuan Province
-
Figure 3.
Geological characteristics of ophiolite from the Litang mélange
-
Figure 4.
Cathodoluminescence images and U-Pb concordant ages of zirzons from Luexigou ophiolite
-
Figure 5.
Geological characteristics of oceanic island from the Litang mélange
-
Figure 6.
Chondrite-normalized REE patterns and primitive mantle-normalized trace multi-element patterns of oceanic island basic volcanic rock
-
Figure 7.
Geological characteristics of flysch formation from the Litang mélange
-
Figure 8.
Photomicrograph of the rifting rock from Juewu Town in the Litang area (orthogonal polarization; a, b)
-
Figure 9.
Tectonic discrimination diagrams for metamorphic basic volcanics from Juewu Town in the Litang area
-
Figure 10.
Photograph and photomicrograph of the garnet amphibolite schist in Qukailongwa of Litang (orthogonal polarization)
-
Figure 11.
The formation and evolution mode of the Litang mélange(modified from Pan Guitang et al., 2013)