发表论文
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LITHOS[J]. 2023, 440: http://dx.doi.org/10.1016/j.lithos.2023.107044.[5] 王军, 王强. Crustal Growth Identified by High-δ18O Zircon and Olivine: A Perspective from Ultramafic Arc Cumulates in Southern Tibet. Journal of Petrology[J]. 2023, [6] 但卫, 王强. Origin of the Songpan–Garzê terrane, Tibetan Plateau: a perspective from the tectonic evolution of the Palaeo-Tethys Ocean. Geological Society, London, Special Publications[J]. 2023, [7] 张妙燕, 王强. Light Mo isotopes of post-collisional ultrapotassic rocks in southern Tibet derived from subducted Indian continental crust. Geochemistry, Geophysics, Geosystems[J]. 2023, [8] JinHeng Liu, Qiang Wang, BingZhang Wang, WuFu Li, ChuanBing Xu, ShanPing Li, ZiLong Wang, LuLu Hao, TaiZhong Song, ChunTao Wang, Ying Zheng, JinShou Wang. Petrogenesis of the Chakabeishan pegmatites, North Qaidam Terrane: Implications for Indosinian lithium mineralization in the northern Tibetan Plateau. LITHOS[J]. 2023, http://dx.doi.org/10.1016/j.lithos.2023.107025.[9] Ma, Xin, Dan, Wei, Wang, Jian, Wang, Qiang, Tang, GuoRong, Gadoev, Mustafo, Oimahmadov, Ilhomjon, Tang, GongJian. Cretaceous magmatic migration and flare-up in Pamir-Karakoram. LITHOS[J]. 2023, 454: http://dx.doi.org/10.1016/j.lithos.2023.107285.[10] 齐玥, 王强. Post-collisional silica-undersaturated Bamaoqiongzong volcanic rocks from northern Qiangtang: Indicators of the mantle heterogeneity and geodynamic evolution of central Tibet. Journal of Petrology[J]. 2023, [11] Hao, LuLu, Kerr, Andrew C, Wang, Qiang, Ma, Lin, Qi, Yue, Xiao, Ming, Ou, Quan. Recycling of subducted Indian continental crust constrained by late Cretaceous mafic dykes in Central Lhasa block of the Tibetan plateau. LITHOS[J]. 2023, 454: http://dx.doi.org/10.1016/j.lithos.2023.107276.[12] Zhou, Dawn, Sun, Peng, Jiang, Shijun, Liu, Xiao, Wang, Qiang. Geochronology and geochemistry of Early Cretaceous high-silica granites in the Nan'ao Island, South China: Petrogenesis and implications for lithospheric extension. JOURNAL OF ASIAN EARTH SCIENCES[J]. 2023, 245: http://dx.doi.org/10.1016/j.jseaes.2023.105558.[13] Gong, Lin, Chen, Huayong, Wang, Qiang, Xiao, Bing, Zhang, Shuanliang, Tang, Gongjian. Multiple tectonic switches in the Eastern Tianshan, Central Asian Orogenic Belt: Implications for crustal growth and metallogenesis. LITHOS[J]. 2023, 454: http://dx.doi.org/10.1016/j.lithos.2023.107235.[14] ChuanBing Xu, JiPeng Zeng, Qiang Wang, XiuZheng Zhang, Quan Ou, Jun Wang, LuLu Hao, Yiwei Chen. Eocene adakitic quartz monzonites and granite porphyries from the northern Qiangtang Block, central Tibet: Partial melting of sediment-rich mélange?. FRONTIERS IN EARTH SCIENCE[J]. 2022, 10: https://doaj.org/article/601cbe139d0149ee8ea7b86b62353500.[15] Zhang, Long, Wang, Qiang, Mikhailenko, D.S., Ding, Xing, Li, Wan-Cai, Xian, Haiyang. Hydroxychloride-Bearing Fluid Inclusions in Ultramafic Rocks From New Caledonia: Implications for Serpentinization in Saline Environments on Earth and Beyond. Journal of Geophysical Research: Solid Earth[J]. 2022, 127: https://doi. org/10.1029/2022JB024508.[16] Zhou, JinSheng, Wang, Qiang, Xing, ChangMing, Ma, Lin, Hao, LuLu, Li, QiWei, Wang, ZiLong, Huang, TongYu. Crystal growth of clinopyroxene in mafic alkaline magmas. EARTH AND PLANETARY SCIENCE LETTERS[J]. 2021, 568: http://dx.doi.org/10.1016/j.epsl.2021.117005.[17] Wang Qiang. Low-δ18O A-type granites in SW China: Evidence for the interaction between the subducted Paleotethyan slab and the Emeishan mantle plume. GSA Bulletin. 2021, [18] Peng Sun, Qiang Wang, LuLu Hao, Wei Dan, Quan Ou, ZiQi Jiang, GongJian Tang. A mélange contribution to arc magmas recorded by Nd–Hf isotopic decoupling: An example from the southern Qiangtang Block, central Tibet. JOURNAL OF ASIAN EARTH SCIENCES. 2021, 221: [19] Wang Qiang. The efficiency of copper extraction from magma bodies: Implications for mineralization potential and fluid-silicate melt partitioning of copper. AMERICANMINERALOGIST. 2021, [20] Yan, Haoyu, Long, Xiaoping, Li, Jie, Wang, Qiang, Wang, XuanCe, Wu, Bin, Wang, Jingyu, Gou, Longlong. Miocene adakites in south Tibet: Partial melting of the thickened Lhasa juvenile mafic lower crust with the involvement of ancient Indian continental crust compositions. GEOLOGICAL SOCIETY OF AMERICA BULLETIN[J]. 2020, 132(5-6): 1273-1290, https://www.webofscience.com/wos/woscc/full-record/WOS:000530917400024.[21] Liu, Xiao, Wang, Qiang, Ma, Lin, Yang, ZongYong, Hu, WanLong, Ma, YiMing, Wang, Jun, Huang, TongYu. Petrogenesis of Late Jurassic two-mica granites and associated diorites and syenite porphyries in Guangzhou, SE China. LITHOS[J]. 2020, 364: http://dx.doi.org/10.1016/j.lithos.2020.105537.[22] 王强, 郝露露, 张修政, 周金胜, 王军, 李奇维, 马林, 张龙, 齐玥, 唐功建, 但卫, 范晶晶. 汇聚板块边缘的埃达克质岩:成分和成因. 中国科学:地球科学[J]. 2020, 50(12): 1845-1873, http://lib.cqvip.com/Qikan/Article/Detail?id=7104062326.[23] Wang Qiang. Oceanic plateau subduction during closure of Bangong-Nujiang Tethys: Insights from Central Tibetan volcanic rocks. Geological Society of American Bulletin. 2019, [24] Wang Qiang. Arc andesitic rocks derived from partial melts of mélange diapir in subduction zones: evidence from whole-rock geochemistry and Sr-Nd-Mo isotopes of the Paleogene Linzizong volcanic succession in southern Tibet. Journal of Geophysical Research: Solid Earth. 2019, [25] Wang, Zhibing, Li, Jie, Wei, Gangjian, Deng, Wenfeng, Chen, Xuefei, Zeng, Ti, Wang, Xijie, Ma, Jinlong, Zhang, Le, Tu, Xianglin, Wang, Qiang, McCulloch, Malcolm. Biologically controlled Mo isotope fractionation in coral reef systems. GEOCHIMICA ET COSMOCHIMICA ACTA[J]. 2019, 262: 128-142, http://dx.doi.org/10.1016/j.gca.2019.07.037.[26] Wu, Hao, Chen, Jingwen, Wang, Qiang, Yu, Yunpeng. SPATIAL AND TEMPORAL VARIATIONS IN THE GEOCHEMISTRY OF CRETACEOUS HIGH-Sr/Y ROCKS IN CENTRAL TIBET. AMERICAN JOURNAL OF SCIENCE[J]. 2019, 319(2): 105-121, [27] Shu, Chutian, Long, Xiaoping, Yin, Changqing, Yuan, Chao, Wang, Qiang, He, Xiaolan, Zhao, Bingshuang, Huang, Zongying. Continental crust growth induced by slab breakoff in collisional orogens: Evidence from the Eocene Gangdese granitoids and their mafic enclaves, South Tibet. GONDWANA RESEARCH[J]. 2018, 64: 35-49, http://dx.doi.org/10.1016/j.gr.2018.06.004.[28] Shen, XiaoMing, Zhang, HaiXiang, Wang, Qiang, Saha, Abhishek, Ma, Lin. Zircon U-Pb geochronology and geochemistry of Devonian plagiogranites in the Kuerti area of southern Chinese Altay, northwest China: Petrogenesis and tectonic evolution of late Paleozoic ophiolites. GEOLOGICAL JOURNAL[J]. 2018, 53(5): 1886-1905, https://www.webofscience.com/wos/woscc/full-record/WOS:000443563400017.[29] 苟国宁, 梁鹤, 曾纪鹏, 欧权, 熊小林, 王强, 郭海峰, 梁鹤. 赣南地区密坑山早白垩世A型花岗岩的锆石U-Pb年代学、地球化学及岩石成因. 大地构造与成矿学[J]. 2018, 42(4): 746-758, http://lib.cqvip.com/Qikan/Article/Detail?id=7000790990.[30] Ma, Yiming, Yang, Tianshui, Bian, Weiwei, Jin, Jingjie, Wang, Qiang, Zhang, Shihong, Wu, Huaichun, Li, Haiyan, Cao, Liwan. A Stable Southern Margin of Asia During the Cretaceous: Paleomagnetic Constraints on the Lhasa-Qiangtang Collision and the Maximum Width of the Neo-Tethys. TECTONICS[J]. 2018, 37(10): 3853-3876, http://dx.doi.org/10.1029/2018TC005143.[31] Xie Jiajia, Qiu Huaning, Bai Xiujuan, Zhang Wanfeng, Wang Qiang, Xia Xiaoping. Geochronological and geochemical constraints on the Cuonadong leucogranite, eastern Himalaya. 中国地球化学学报:英文版[J]. 2018, 37(3): 347-359, http://lib.cqvip.com/Qikan/Article/Detail?id=675394892.[32] Ma, Yiming, Yang, Tianshui, Bian, Weiwei, Jin, Jingjie, Wang, Qiang, Zhang, Shihong, Wu, Huaichun, Li, Haiyan, Cao, Liwan, Yuan, Haifan, Ding, Jikai. Paleomagnetic and Geochronologic Results of Latest Cretaceous Lava Flows From the Lhasa Terrane and Their Tectonic Implications. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH[J]. 2017, 122(11): 8786-8809, http://dx.doi.org/10.1002/2017JB014743.[33] Chen, Bei, Long, Xiaoping, Wilde, Simon A, Yuan, Chao, Wang, Qiang, Xia, Xiaoping, Zhang, Zhaofeng. Delamination of lithospheric mantle evidenced by Cenozoic potassic rocks in Yunnan, SW China: A contribution to uplift of the Eastern Tibetan Plateau. LITHOS[J]. 2017, 284: 709-729, http://dx.doi.org/10.1016/j.lithos.2017.05.019.[34] Ma Lin, Wang Qiang, Li ZhengXiang, Wyman Derek A, Yang JinHui, Jiang ZiQi, Liu Yongsheng, Gou GuoNing, Guo HaiFeng. Subduction of Indian continent beneath southern Tibet in the latest Eocene (~ 35 Ma): Insights from the Quguosha gabbros in southern Lhasa block. GONDWANA RESEARCH[J]. 2017, [35] Wang Qiang. Carboniferous and Permian evolutionary records for the Paleo-Tethys Ocean constrained by newly discovered Xiangtaohu ophiolites from central Qiangtang, central Tibet. Tectonics. 2016, [36] WANG Qiang, ZHAO Zhenhua, QIU Jiaxiang, WANG Renjing, LIU Yuanjun. The Mesozoic Welding Process between South and North Dabie Blocks:An Evidence from Pb Isotopes of Yanshanian Granites. 资源环境与工程[J]. 2016, 129-130, http://lib.cqvip.com/Qikan/Article/Detail?id=72666875504849548349485049.[37] Zhang, XiuZheng, Dong, YongSheng, Wang, Qiang, Dan, Wei, Zhang, Chunfu, Deng, MingRong, Xu, Wang, Xia, XiaoPing, Zeng, JiPeng, Liang, He. Carboniferous and Permian evolutionary records for the Paleo-Tethys Ocean constrained by newly discovered Xiangtaohu ophiolites from central Qiangtang, central. TECTONICS[J]. 2016, 35(7): 1670-1686, http://ir.gig.ac.cn:8080/handle/344008/33522.[38] Jiang, Ziqi, Wang, Qiang, Wyman, Derek A, Shi, Xiaobin, Yang, Jinhui, Ma, Lin, Gou, Guoning. Zircon U-Pb geochronology and geochemistry of Late Cretaceous-early Eocene granodiorites in the southern Gangdese batholith of Tibet: petrogenesis and implications for geodynamics and Cu +/- Au +/- Mo mineralization. INTERNATIONAL GEOLOGY REVIEW[J]. 2015, 57(3): 373-392, http://ir.gig.ac.cn:8080/handle/344008/31898.[39] Dan, Wei, Li, XianHua, Wang, Qiang, Wang, XuanCe, Liu, Yu, Wyman, Derek A. Paleoproterozoic S-type granites in the Helanshan Complex, Khondalite Belt, North China Craton: Implications for rapid sediment recycling during slab break-off. PRECAMBRIAN RESEARCH[J]. 2014, 254: 59-72, http://dx.doi.org/10.1016/j.precamres.2014.07.024.[40] 王强. 湖南上堡花岗岩中电气石LA-MC-ICPMS原位微区硼同位素分析及地质意义. 地球化学. 2014, [41] Dan, Wei, Li, Xianhua, Wang, Qiang, Wang, Xuance, Liu, Yu. NEOPROTEROZOIC S-TYPE GRANITES IN THE ALXA BLOCK, WESTERNMOST NORTH CHINA AND TECTONIC IMPLICATIONS: IN SITU ZIRCON U-Pb-Hf-O ISOTOPIC AND GEOCHEMICAL CONSTRAINTS. AMERICAN JOURNAL OF SCIENCE[J]. 2014, 314(1): 110-153, http://ir.iggcas.ac.cn/handle/132A11/8033.[42] Xiao-Ming Shen, Hai-Xiang Zhang, Qiang Wang, Lin Ma, Yue-Heng Yang. Early Silurian (~ 440 Ma) adakitic, andesitic and Nb-enriched basaltic lavas in the southern Altay Range, Northern Xinjiang (western China): Slab melting and implications for crustal growth in the Central Asian Orogenic Belt. LITHOS. 2014, 206-207: 234-251, http://dx.doi.org/10.1016/j.lithos.2014.07.024.[43] Dan, Wei, Li, XiaaHua, Wang, Qiang, Tang, GongJian, Liu, Yu. An Early Permian (ca. 280 Ma) silicic igneous province in the Alxa Block, NW China: A magmatic flare-up triggered by a mantle-plume?. LITHOS[J]. 2014, 204: 144-158, http://dx.doi.org/10.1016/j.lithos.2014.01.018.[44] Tang, GongJian, Chung, SunLin, Wang, Qiang, Wyman, Derek A, Dan, Wei, Chen, HongYi, Zhao, ZhenHua. Petrogenesis of a Late Carboniferous mafic dike-granitoid association in the western Tianshan: Response to the geodynamics of oceanic subduction. LITHOS[J]. 2014, 202: 85-99, http://dx.doi.org/10.1016/j.lithos.2014.04.010.[45] Jiang, ZiQi, Wang, Qiang, Wyman, Derek A, Li, ZhengXiang, Yang, JinHui, Shi, XiaoBing, Ma, Lin, Tang, GongJian, Gou, GuoNing, Jia, XiaoHui, Guo, HaiFeng. Transition from oceanic to continental lithosphere subduction in southern Tibet: Evidence from the Late Cretaceous-Early Oligocene (similar to 91-30 Ma) intrusive rocks in the Chanang-Zedong area, southern Gangdese. LITHOS[J]. 2014, 196: 213-231, http://ir.gig.ac.cn:8080/handle/344008/29602.[46] Shen, XiaoMing, Zhang, HaiXiang, Wang, Qiang, Ma, Lin, Yang, YueHeng. Early Silurian (similar to 440 Ma) adakitic, andesitic and Nb-enriched basaltic lavas in the southern Altay Range, Northern Xinjiang (western China): Slab melting and implications for crustal growth in the Central Asian Orogenic Belt. LITHOS[J]. 2014, 206: 234-251, http://ir.gig.ac.cn:8080/handle/344008/29611.[47] Wang Qiang. Late Cretaceous crustal growth of southern Tibet: Petrological and Sr-Nd-Hf-O isotopic evidence from the Zhengga diorite-gabbro suites in the Gangdese area. Chemical Geology. 2013, [48] Wang Qiang. Recycling oceanic crust for continental crustal growth: Sr-Nd-Hf isotope evidence from granotoids in the western Junggar region, NW China. Lithos. 2012, [49] Wang, Qiang, Li, XianHua, Jia, XiaoHui, Wyman, Derek, Tang, GongJian, Li, ZhengXiang, Ma, Lin, Yang, YueHeng, Jiang, ZiQi, Gou, GuoNing. Late Early Cretaceous adakitic granitoids and associated magnesian and potassium-rich mafic enclaves and dikes in the Tunchang-Fengmu area, Hainan Province (South China): Partial melting of lower crust and mantle, and magma hybridization. CHEMICAL GEOLOGY[J]. 2012, 328: 222-243, http://dx.doi.org/10.1016/j.chemgeo.2012.04.029.[50] Gong-Jian Tang, Qiang Wang, Derek A. Wyman, Zheng-Xiang Li, Zhen-Hua Zhao, Yue-Heng Yang. Late Carboniferous high εNd(t)–εHf(t) granitoids, enclaves and dikes in western Junggar, NW China: Ridge-subduction-related magmatism and crustal growth. LITHOS. 2012, 140-141: 86-102, http://dx.doi.org/10.1016/j.lithos.2012.01.025.[51] Wang, Qiang, Chung, SunLin, Li, XianHua, Wyman, Derek, Li, ZhengXiang, Sun, WeiDong, Qiu, HuaNing, Liu, YongSheng, Zhu, YingTang. Crustal Melting and Flow beneath Northern Tibet: Evidence from Mid-Miocene to Quaternary Strongly Peraluminous Rhyolites in the Southern Kunlun Range. JOURNAL OF PETROLOGY[J]. 2012, 53(12): 2523-2566, http://dx.doi.org/10.1093/petrology/egs058.[52] Ali, Kamal A, Moghazi, AbdelKader M, Maurice, Ayman E, Omar, Sayed A, Wang, Qiang, Wilde, Simon A, Moussa, Ewais M, Manton, William I, Stern, Robert J. Composition, age, and origin of the similar to 620 Ma Humr Akarim and Humrat Mukbid A-type granites: no evidence for pre-Neoproterozoic basement in the Eastern Desert, Egypt. 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