Department of geology northwest university

Teacher Name

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1、 Personal profile

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<span style="FONT-SIZE: 12pt; FONT-FAMILY: " narrow?,?sans-serif?;?="" arial="">2001</span><span style="font- size:12pt;font-family : graduated from the Department of geology, Northwest University in 2006; font size: 12pt; font family: & quote; narrow?,? Sans serif?;? = & quote; & quote; arial="">“</span><span style="font- size:12pt;font-family : lt; / span & gt; span style = & quot; font-size: 12pt; font-family: & quot; narrow?,? Sans serif?;? = & quot; Arial = & quot; & quot; & gt; & lt; / span & gt; span style = & quot; font- size:12pt;font-family : Song Dynasty in Chinese; /span><span style="FONT-SIZE: 12pt; FONT-FAMILY: " narrow?,?sans-serif?;?="" arial="">2004</span><span style="font- size:12pt;font-family : Master's degree in mineralogy, petrology and mineralogy, School of Geoscience, Jilin University; span style = & quot; font-size: 12pt; FONT-FAMILY: " narrow?,?sans-serif?;?="" arial="">2007</span><span style="font- size:12pt;font-family He received his Ph.D. in geochemistry from Guangzhou Institute of geochemistry, Chinese Academy of Sciences. </span><span style="FONT-SIZE: 12pt; FONT-FAMILY: " narrow?,?sans-serif?;?="" arial="">2007</span><span style="font- size:12pt;font-family : Chinese Song Dynasty & quot; year & lt; / span & gt; span style = & quot; font-size: 12pt; font family: & quot; narrow?,? Sans serif?;? = & quot; Arial = & quot; & quot; & gt; 8</span><span style="font- size:12pt;font-family Since the beginning of this month, he has been working in Guangzhou Institute of geochemistry, Chinese Academy of Sciences. Span style = & quot; font size: 12pt; font family: & quot; narrow?,? Sans serif?;? = & quot; Arial = & quot; Arial = & quot; & quot; gt; 2015 & lt; / span & gt; & lt; span style = & quot; font- size:12pt; Font family: first transferred to the Department of geology, Northwest University. During his work, he has visited the Department of Geosciences of Hong Kong University and Australia & lt; / span & gt; span style = & quot; font-size: 12pt; font family: & quot; narrow?,? Sans serif?;? = & quot; Arial = & quot; & quot; Curtin & lt; / span & gt; span style = & quot; font- size:12pt;font-family : University visit to Chinese Song Dynasty. At present, it is mainly engaged in the study of the formation and evolution of different types of continental crust and the change of paleoenvironment. Currently published & lt; / span & gt; & lt; span style = & quot; font-size: 12pt; font-family: & quot; arrow?,? Sans serif?;? = & quot; & quot; Arial = & quot; & quot; & gt; Sci & lt; / span & gt; & lt; span style = & quot; font- size:12pt;font-family : paper 10 & lt; span & gt; 0 & lt; / span & gt; lt; / span & gt; style = & quot; font- size:12pt;font-family : song; quot; gt; in Chinese; Over 3 & lt; / span & gt; & lt; span style = & quot; font-size: 12pt; font-family: & quot; narrow?,? Sans serif?;? = & quot; Arial = & quot; & quot; & gt; 500 & lt; / span & gt; & lt; span style = & quot; font- size:12pt;font-family : more times & lt; / span & gt; span style = & quot; font- size:12pt;font-family : song; quot; gt; in Chinese;. </span>

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<strong><span style="font- size:14px;color :#4c33e5;">Research ID</span></strong>: <a href=" http://www.researcherid.com/ProfileView.action?SID=4DN3sYfWN2jqJO7S2UE&returnCode=ROUTER.Success&queryString=KG0UuZjN5WlEWrX6hmfsM0QZO1i1Ni63%252F2fHTIBZl7E%253D&SrcApp=CR&Init=Yes"> http://www.researcherid.com/ProfileView.action?SID=4DN3sYfWN2jqJO7S2UE&amp;returnCode=ROUTER.Success&amp;queryString=KG0UuZjN5WlEWrX6hmfsM0QZO1i1Ni63%252F2fHTIBZl7E%253D&amp;SrcApp=CR&amp;Init=Yes</a >

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<span style="font- size:14px;color :#4c33e5;"><strong>Researgate</strong></span>: <a href=" https://publons.com/researcher/2827094/xiaoping-long/">https / / publons.com/researcher/2827094/xiaoping -long/</a>

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2、 Scientific research

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<span style="font- size:12pt;font-family : list of major SCI papers in Chinese Song Dynasty: & lt; span & gt; & lt; / span & gt; & lt; / span & gt; & nbsp;

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<b><span><span>1)<span>&nbsp;&nbsp;&nbsp;&nbsp; </span></span></span><b><span>Long, X.P.</span></b><span>*, Luo, J., Sun, M., Wang, X.C., Wang, Y.J., Yuan, C., Jiang, Y.D., 2019. Detrital zircon U-Pb ages and whole-rock geochemistry of early Paleozoic metasedimentary rocks in the Mongolian Altai: Insights into the tectonic affinity of the whole Altai-Mongolian terrane. <b><i>GSA Bulletin</i></b>. https://doi.org/10.1130/B35257.1</span > </b>

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<b><span><span>2)<span>&nbsp;&nbsp;&nbsp;&nbsp; </span></span></span><b><span>Long, X.P.</span></b><span>*, Wu, B., Sun, M., Yuan, C., Xiao, W.J., Zuo, R., 2019. Geochronology and geochemistry of Late Carboniferous dykes in the Aqishan–Yamansu belt, eastern Tianshan: Evidence for a post-collisional slab breakoff. <b><i>Geoscience Frontiers</i></b>. <a href=" https://doi.org/10.1016/j.gsf.2019.06.003" target="_ blank"><span style=" color:windowtext;"><span>https / / doi.org/10 .1016/j.gsf.2019.06.003</span></span></a></span> </b>

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<b><span><span>3)<span>&nbsp;&nbsp;&nbsp;&nbsp; </span></span></span><span>Dong, B.H., </span><b><span>Long, X.P.*</span></b><span>, Li, J., Yang, X.X., Zhao, B.S., Luo, J., 2019. Mo isotopic variations of a Cambrian sedimentary profile in the Huangling area, South China: Evidence for redox environment corresponding to the Cambrian Explosion. </span><b><i><span style="line- height:115%;">Gondwana Researc</span><span>h</span></i></b><span> < /span><span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?="">69, 45</span><span>–55.<b><i> </i></b> https://doi.org/10.1016/j.gr.2018.12.002</span > </b>

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<b><span><span>4)<span>&nbsp;&nbsp;&nbsp;&nbsp; </span></span></span><span>Yan, H.Y., </span><b><span>Long, X.P.*</span></b><span>, Li, J., Wang, Q., Zhao, B.S., Shu, C.T., Gou, L.L., Zuo, R., 2019. 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. </span><b><i><span>J. Geophys. Res. Solid Earth</span></i></b><span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?; B ackground:white;line-height :115%;?=""> 124, 456-475. </span><span><a href=" https://doi.org/10.1029/2018JB016545">https / / doi.org/10 .1029/2018JB016545</a></span> </b>

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<b><span><span>5)<span>&nbsp;&nbsp;&nbsp;&nbsp; </span></span></span><span>Zhang, Z.Z., Qin, J.F., Lai, S.C., <b>Long, X.P.</b>, Ju, Y.J., Wang, X.Y., Zhu, Y., Zhang, F.Y., 2019. Origin of Late Permian syenite and gabbro from the Panxi rift, SW China: The fractionation process of mafic magma in the inner zone of the Emeishan mantle plume. </span><b><i><span>Lithos</span></i></b><span> 346-347, 1-12.</span> </b>

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<b><span><span>6)<span>&nbsp;&nbsp;&nbsp;&nbsp; </span></span></span><span>Xu, J., Xia, X.P., Lai, C.K., <b>Long, X.P.</b>, Huang, C., 2019. When Did the Paleotethys Ailaoshan Ocean Close: New Insights From Detrital Zircon U-Pb age and Hf&nbsp;Isotopes. </span> <b><i><span>Tectonics</span></i></b><span> 38, 1798-1823.</span> </b>

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<b><span><span>7)<span>&nbsp;&nbsp;&nbsp;&nbsp; </span></span></span><span>Lan, C.Y., Zhao, T.P., Chen, W.T., <b>Long, X.P.</b>, 2019. Trace elemental modification in magnetite from high-grade metamorphosed BIFs in the southern North China Craton. Ore Geology Reviews 112, 1-15.</span> </b>

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<b><span><span>8)<span>&nbsp;&nbsp;&nbsp;&nbsp; </span></span></span><span>Chen, Q., Sun, M., Zhao, G.C., Zhao, J.H., Zhu, W.L., <b>Long, X.P.</b>, Wang, Jun., 2019. Episodic crustal growth and reworking of the Yudongzi terrane, South China: Constraints from the Archean TTGs and potassic granites and Paleoproterozoic amphibolites. </span><b><i><span>Lithos</span></i></b><span> </span><span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?=""> 326-327, 1</span><span>–</span><span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?="">18</span><span>.</span> </b>

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<b><span><span>9)<span>&nbsp;&nbsp;&nbsp;&nbsp; </span></span></span><span>Zhang, C.L., Ye, X.T., Ernst, R.E., Zhong, Y., Zhang, J., Li, H.K., <b>Long, X.P.</b>, 2019. Revisiting the Precambrian evolution of the Southwestern Tarim terrane: Implications for its role in Precambrian supercontinents. </span><b><i><span>Precambrian Research</span></i></b><span> 324, 18–31.</span> </b>

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<b><span><span>10)<span>&nbsp; </span></span></span><span>Wang, X.Y., Qin, J.F., Lai, S.C., <b>Long, X.P.</b>, Ju, Y.J., Zhang, Z.Z., Zhu, R.Z., 2019. Paleoproterozoic A-type granite from the southwestern margin of the North China block: high temperature melting of tonalitic crust in extensional setting. </span><b><i><span>International Geology Review</span></i></b><span> <a href=" https://doi.org/10.1080/00206814.2019.1627590"><span style=" color:windowtext;"><span>https / / doi.org/10 .1080/00206814.2019.1627590</span></span>< /a>. </span> </b>

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<b><span><span>11)<span>&nbsp; </span></span></span><span>Shu, C.T., <b>Long, X.P.*</b>, Yin, C.Q., Yuan, C., Wang, Q., He, X.L., Zhao, B.S., Huang, Z.Y., 2018. Continental crust growth induced by slab breakoff in collisional orogens: Evidence from the Eocene Gangdese granitoids and their mafic enclaves, South Tibet. </span><b><i><span style="line- height:115%;">Gondwana Researc</span><span>h</span></i></b><span> 64, 35–49.< /span> </b>

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<b><span><span>12)<span>&nbsp; </span></span></span><span>Zhao, J., Liang, J.L., </span><b><span>Long, X.P.*</span></b><span>, Li, J., Xiang, Q.R., Zhang, J.C., Hao, J.L., 2018. </span><span style="line- height:115%;">Genesis and evolution of framboidal pyrite and its implications for the oreforming process of Carlin-style gold deposits, southwestern China. </span><b><i><span style="line- height:115%;">Ore Geology Reviews</span></i></b><span style="line- height:115%;"> 102, 426</span><span>–</span> <span style="line- height:115%;">436. </span><span></span> </b>

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<b><span><span>13)<span>&nbsp; </span></span></span><span>Du, L., <b>Long, X.P.*</b>, Yuan, C., Zhang, Y.Y., Huang, Z.Y., Sun, M., Xiao, W.J., 2018. Petrogenesis of Late Paleozoic diorites and A-type granites in the central Eastern Tianshan, NW China: Response to post-collisional extension triggered by slab breakoff. <b><i>Lithos</i></b></span><span> </span><span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?="">318-319, 47</span><span>–</span>< span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?="">59</span><span>.</span> </b>

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<b><span><span>14)<span>&nbsp; </span></span></span><span>Du, L., <b>Long, X.P.*</b>, Yuan, C., Zhang, Y.Y., Huang, Z.Y., Wang, X.Y., Yang, Y.H., 2018. Mantle contribution and tectonic transition in the Aqishan-Yamansu Belt, Eastern Tianshan, NW China: Insights from geochronology and geochemistry of Early Carboniferous to Early Permian felsic intrusions. <b><i>Lithos</i></b></span><span> </span><span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?="">304-307, 230</span><span>–</span>< span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?="">244</span><span>.</span> </b>

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<b><span><span>15)<span>&nbsp; </span></span></span><span>Du, L., <b>Long, X.P.*</b>, Yuan, C., Zhang, Y.Y., Huang, Z.Y., Sun, M., Zhao, G.C., Xiao, W.J., 2018. Early Paleozoic dioritic and granitic plutons in the Eastern Tianshan Orogenic Belt, NW China: Constraints on the initiation of a magmatic arc in the southern Central Asian Orogenic Belt. <b><i>Journal of Asian Earth Sciences</i></b></span><span> </span><span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?="">153, 139</span><span>–< /span><span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?="">153</span><span>. </span> </b>

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<b><span style="line- height:115%;"><span>16 )<span>&nbsp; </span></span></span><span>Chen, Q., Sun, M., <b>Long, X.P.</b>, Zhao, G.C., Wang, J., Yu, Y., Yuan, C., 2018. Provenance study for the Paleozoic sedimentary rocks from the west Yangtze Block: Constraint on possible link of South China to the Gondwana supercontinent reconstruction. <b><i>Precambrian Research</i></b> 309, 271–289.</span><span style="line- height:115%;"></span > </b>

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<b><span style="line- height:115%;"><span>17 )<span>&nbsp; </span></span></span><span>Cai, K.D., <b>Long, X.P.</b>, Chen, H.Y., Sun, M., Xiao, W.J., 2018. Accretionary and collisional orogenesis in the south domain of the western Central Asian Orogenic Belt (CAOB). <b> <i>Journal of Asian Earth Sciences</i></b></span><span> 153, 1-8.</span><span style="line- height:115%;"></span > </b>

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<b><span><span>18)<span>&nbsp; </span></span></span><span>Yin, L., Li, J., Tian, H., </span><b><span>Long, X.P.</span></b><span>, 201</span><span>8. Rhenium-osmium and molybdenum isotope systematics of black shales from the Lower Cambrian Niutitang Formation, SW China: Evidence of a well oxygenated ocean at ca. 520 Ma. <b><i>Chemical Geology </i></b>499 26-42. </span> </b>

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<b><span><span>19)<span>&nbsp; </span></span></span><span>Zhang, Y., Sun, M., Yuan, C., <b>Long, X.,</b> Jiang, Y., Li, P., Huang, Z., Du, L., 2018. Alternating trench advance and retreat: Insights from Paleozoic magmatism in the eastern Tianshan, Central Asian Orogenic Belt. < b><i>Tectonics</i></b> 37, 2142–2164.</span> </b>

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<b><span><span>20)<span>&nbsp; </span></span></span><span>Wang, X.Y., Yuan, C., Zhang, Y.Y., </span><b><span>Long, X.P.</span></b><span>, Sun, M., Wang L.X., Soldner, J., Lin, Z.F., 2018. S-type granite from the Gongpoquan arc in the Beishan Orogenic Collage, southern Altaids: Implications for the tectonic transition. </span><b><i><span>Journal of Asian Earth Sciences</span></i></b><span> 153, 206-222.</span> </b>

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<b><span><span>21)<span>&nbsp; </span></span></span><span style="line- height:115%;">Yin Jiyuan, Chen Wen, Xiao Wenjiao, <b>Long Xiaoping</b>, Tao Ni, Liu Liping, Yuan Chao, Sun Min., 2018. Tracking the multiple-stage exhumation history and magmatic-hydrothermal events of the West Junggar region, NW China: Evidence from <sup>40</sup>Ar/<sup>39</sup>Ar and (U-Th)/He thermochronology. <b><i>Journal of Asian Earth Sciences</i></b> 159: 130-141.</span><span></span> </b>

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<b><span><span>22)<span>&nbsp; </span></span></span><span>Lai, S.C., Qin, J.F., <b>Long, X.P.</b>, Li, Y.F., Ju, Y.J., Zhu, R.Z., Zhao, S.W., Zhang, Z.Z., Zhu, Y., Wang, J.B., 2018. Neoproterozoic gabbro-granite association from the Micangshan area, northern Yangtze Block: Implication for crustal growth in an active continental margin. </span><b><i><span>Geological Journal </span></i></b><span>53, 2471-2486.</span> </b>

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<b><span><span>23)<span>&nbsp;&nbsp; </span></span></span><span>Huang, X.X., Sun, Y.L., Yue, Y.H., Zhao, S.Q., <b>Long, X.P.</b>, 2018. Determination of Rhenium in Geological Samples by Isotope Dilution–Multicollector–Inductively Coupled Plasma-Mass Spectrometry with Novel Chromatographic Separation. <b><i>Analytical Letters</i></b> 8, 1122-1146. </span> </b>

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<b><span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;line- height:115%; ?=""><span>24)<span>&nbsp; </span></span></span><span>Chen, B., <b>Long, X.P.</b>*, Wilde, S.A., Yuan, C., Wang, Q., Xia, X.P., Zhang, Z.F., 2017. Delamination of Lithospheric Mantle evidenced by Cenozoic potassic rocks in Yunnan, SW China: A contribution to uplift of the Eastern Tibetan Plateau. </span><b><i><span>Lithos </span></i></b><span>284</span><span>–</span><span>285, 709</span><span>–< /span><span>729.</span><span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?=""></span> </b>

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<b><span><span>25)<span>&nbsp; </span></span></span><span>Huang, Z.Y., <b>Long, X.P.*</b>, Wang, X.C., Zhang, Y.Y., Du, L., Yuan, C., Xiao, W.J., 2017. Precambrian evolution of the Chinese Central Tianshan Block: constraints on its tectonic affinity to the Tarim Craton and responses to supercontinental cycles. <b><i>Precambrian </i></b></span><b><i><span style="line- height:115%;">Research </span></i></b>< span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?="">295, 24</span><span>–</span><span style="FONT-SIZE: 10pt; FONT-FAMILY: " arial?,?sans-serif?;b ackground:white;line-height :115%;?="">37.</span><span></span> </b>

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<b><span><span>26)<span>&nbsp; </span></span></span><span>Zhang, L., <b>Long, X.P.*</b>, Zhang, R., Dong, Y.P., Yuan, C., Xiao, W.J., Wang, Y.J., 2017. Source characteristics and provenance of metasedimentary rocks from the Kangxiwa Group in the Western Kunlun Orogenic Belt, NW China: Implications for tectonic setting and crustal growth. </span><b><i><span style="line- height:115%;">Gondwana Researc</span><span>h</span></i></b><span> 46, 43–56. </span> </b>

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<b><span><span>27)<span>&nbsp; </span></span></span><span>Bao, W.H., <b>Long, X.P.*</b>, Yuan, C., Sun, M., Zhao, G.C., Wang, Y.J., Guan, Y.L., Zhang, Y.Y., 2017. </span><span>Paleozoic adakitic rocks in the northern Altyn Tagh, northwest China: Evidence for progressive crustal thickening beneath the Dunhuang Block. <b><i>Lithos</i></b> 272–273, 1–15.</span> </b>

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<b><span><span>28)<span>&nbsp; </span></span></span><span>Chen, Q., Sun, M., <b>Long, X.P.</b>, Zhao, G.C., Wang, J., Yu, Y., Yuan, C., 2017. Provenance study for the Paleozoic sedimentary rocks from the west Yangtze Block: Constraint on possible link of South China to the Gondwana supercontinent reconstruction. <b><i>Precambrian Research</i></b>.</span><span></span> </b>

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<b><span style="line- height:115%;"><span>29 )<span>&nbsp; </span></span></span><span>Zhang, J., Li, J., </span><b><span>Long, X.P.</span></b><span>, Sun, S.L., Yin, L., Dai, M.N., 2017. Rhenium–osmium isotope measurements of geological reference material BIR–1a: Evaluation of homogeneity and implications for method validation and quality control. <b><i>Geostandards and Geoanalytical Research</i></b> 41, 649-658.</span><span style="line- height:115%;"></span > </b>

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&Hang, F.F., Varga, J., 2017. Zircon U & lt; / span & gt; & lt; span style = & quote; font family: Tahoma; ">–</span><span>Pb chronology, Hf isotope analysis and whole-rock geochemistry for the Neoarchean-Paleoproterozoic Yudongzi complex, northwestern margin of the Yangtze craton, China. </span><b><i><span>Precambrian Research</span></i></b><span>. 301, 65–85.</span>< span></span> </b>

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<b><span style="line- height:115%;"><span>31 )<span>&nbsp; </span></span></span><span>He, X.L., Yin, C.Q., <b>Long, X.P.,</b> Qian, J.H., Wang, L.J., Qiao, Z.H., 2017. Archean to Paleoproterozoic continental crust growth in the Western Block of North China: Constraints from zircon Hf isotopic and whole-rock Nd isotopic data</span><span>. </span><b><i><span>Precambrian Research </span></i></b><span>303, 105-116.</span><span style=" line- height:115%;"></span > </b>

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<b><span><span>32)<span>&nbsp; </span></span></span><span>Chen, Q., Sun, M., Zhao, G.C., Yang, F.L., <b>Long, X.P.</b>, Li, J.H., Wang, J., Yu, Y., 2017. Origin of the mafic microgranular enclaves (MMEs) and their host granitoids from the Tagong pluton in Songpan–Ganze terrane: An igneous response to the closure of the Paleo-Tethys ocean. <b><i>Lithos</i></b></span><span> 290-291, 1-17</span><span>.</span><span></span> < /b>

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<b><span><span>33)<span>&nbsp; </span></span></span><span>Li, W.J., Yin, C.Q., <b>Long, X.P.,</b> Zhang, J., Xia, X.P., Wang, L.J., 2017. Paleoproterozoic S-type granites from the Helanshan Complex in Inner Mongolia: Constraints on the provenance and the Paleoproterozoic evolution of the Khondalite Belt, North China Craton</span><span>. </span><b><i><span>Precambrian Research</span></i></b><span>. 299, 195–209.</span><span></span> </b>

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<b><span><span>34)<span>&nbsp; </span></span></span><span>Yu, Y., Sun, M., <b>Long, X.P.</b>, Li, P.F., Zhao, G.C., Alfred, K., Broussolle, A., Yang, J.H., 2017. Whole-rock Nd-Hf isotopic study of I-type and peraluminous granitic rocks from the Chinese Altai: Constraints on the nature of the lower crust and tectonic setting. <b><i>Gondwana Research</i></b> 47, 131-141.</span><span></span> </b>

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<b><span><span>35)<span>&nbsp; </span></span></span><span>Zhang, Y., Yuan, C., Sun, M., </span><b><span>Long, X., </span></b><span>Wang, Y., Jiang, Y., Lin, Z., 2017. Arc magmatism associated with steep subduction: Insights from trace element and Sr–Nd–Hf–B isotope systematics. </span><b><i><span>J. Geophys. Res. Solid Earth</span></i></b><span> 122, 122, 1816-1834. </span><span></span> </b>

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<b><span><span>36)<span>&nbsp; </span></span></span><span>Zhang, Y.Y., Yuan, C., <b>Long, X.P.</b>, Sun, M., Huang, Z.Y., Du, L., Wang, X.Y., 2017. Carboniferous bimodal volcanic rocks in the Eastern Tianshan, NW China: Evidence for arc rifting. </span><b><i>< span>Gondwana Research</span></i></b><span> 43, 92-106.</span> </b>

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<b><span><span>37)<span>&nbsp; </span></span></span><span style=" color:black;line-height :115%;">Yin, J.Y., Chen, W., </span><span>Xiao, W.J., </span><span style=" color:black;line-height :115%;">Yuan, C., Zhang, B., </span><span>Cai, K.D., && gt; & lt; B & gt; & lt; I & gt; & lt; span & gt; Gondwana Research</span></i></b><span> 47, 188-199.</span><span></span> </b>

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<b><span><span>38)<span>&nbsp; </span></span></span><span>Yu, Y., Sun, M., Huang X.L., Zhao, G.C., Li, P.F., <b>Long, X.P.</b>, Cai, K.D., Xia, X.P., 2017. Sr-Nd-Hf-Pb isotopic evidence for modification of the Devonian lithospheric mantle beneath the Chinese Altai. <b><i> Lithos</i></b></span><span> 284-285, 207-221.</span><span></span> </b>

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<b><span><span>39)<span>&nbsp; </span></span></span><span style=" color:black;line-height :115%;">Yin, J.Y., Chen, W., </span><span>Xiao, W.J., </span><span style=" color:black;line-height :115%;">Yuan, C., Yu, S., Sun, J.B., </span><span>Cai, K.D., <b>Long, X.P.</b>, 20</span><span>17. The source and tectonic implications of late Carboniferous-early Permian A-type granites and dikes from the eastern Alataw Mountains, Xinjiang: geochemical and Sr-Nd-Hf isotopic constraints. <b><i>International Geology Review </i></b>59, 1310-1323.< /span><span></span> </b>

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<b><span><span>40)<span>&nbsp; </span></span></span><span style=" color:black;line-height :115%;">Lai, S.C., Qin, J.F., Long, X.P., Li, Y.F., Ju, Y.J., Zhu, R.Z., Zhao, S.W., Zhang, Z.Z., Zhu, Y., Wang, J.B., 2017. Neoproterozoic gabbro–granite association from the Micangshan area, northern Yangtze Block: Implication for crustal growth in active continental margin. </span><b><i><span style="line- height:115%;">Geological Journal </span></i></b><span style=" color:black;line-height :115%;">1-16.</span><span></span> </b>

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<b><span><span>41)<span>&nbsp; </span></span></span><span>Yan, H.Y., <b>Long, X.P.*</b>, Wang, X.C., Li, J., Wang, Q., Yuan, C., Sun, M., 2016. Middle Jurassic MORB-type gabbro, high-Mg diorite, calc-alkaline diorite and granodiorite in the Ando area, central Tibet: Evidence for a slab roll-back of the Bangong-Nujiang Ocean. <b><i>Lithos</i></b> 264, 315–328.</span><span></span> </b>

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<b><span><span>42)<span>&nbsp; </span></span></span><span>Huang, Z.Y., <b>Long, X.P.*</b>, Yuan, C., Sun, M., Wang, Y.J., Zhang, Y.Y., Chen, B., 2016. Detrital zircons from Neoproterozoic sedimentary rocks in the Yili Block: Constraints on the affinity of microcontinents in the southern Central Asian Orogenic Belt. </span><b><i><span style="line- height:115%;">Gondwana Research</span></i></b><span> 37, 39–52. </span> < /b>

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<b><span><span>43)<span>&nbsp; </span></span></span><span>Hao, L.L., Wang, Q., Wyman, D.A., Ou, Q., Dan, W., Jiang, Z.Q., Yang, J.H., Li, J., </span><b><span>Long, X.P.</span></b><span>, 2016. Andesitic crustal growth via mélange partial melting: Evidence from Early Cretaceous arc dioritic/andesitic rocks in southern Qiangtang, central Tibet. </span><b><i><span>Geochemistry, Geophysics, Geosystems</span></i></b><span> 17, 1641-1645. </span> </b>

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<b><span><span>44)<span>&nbsp; </span></span></span><span>Cai, K.D., Sun, M., Jahn, B-M., Xiao, W.J., </span><b><span>Long, X.P</span></b><span>., Chen, H.Y., Xia, X.P., Chen, M., Wang, X.S., 2016. Petrogenesis of the Permian Intermediate-Mafic Dikes in the Chinese Altai, Northwest China: Implication for a Postaccretion Extensional Scenario. </span><b><i><span>Journal of Geology</span></i></b><span> 124, 481-500.</span> </b>

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<b><span style="line- height:115%;"><span>45 )<span>&nbsp; </span></span></span><span>Chen, Q., Sun, M., <b>Long, X.P.</b>, Yuan, C., Zhao, G.C., 2016. U–Pb ages and Hf isotopic record of zircons from the late Neoproterozoic and Silurian-Devonian sedimentary rocks of the western Yangtze Block: Implications for its tectonic evolution and continental affinity. <b><i>Gondwana Research</i></b> 31, 184-199.</span><span style="line- height:115%;"> </span> </b>

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<b><span style="line- height:115%;"><span>46 )<span>&nbsp; </span></span></span><span style="FONT-FAMILY: " advtt5235d5a9?,?serif?; color:black;line-height :115%;?="">Cai, K.D., Sun, M., Buslov, M.M., Jahn, B.M., Xiao, W.J., </span><b><span>Long, X.P.</span></b><span style="FONT-FAMILY: " advtt5235d5a9?,?serif?; color:black;line-height :115%;?="">, Chen, H.Y., Wan, B., Chen, M., Rubanova, E.S., Kulikova, A.V., Voytishek, E.E., 2016. Crustal nature and origin of the Russian Altai: Implications for the continental evolution and growth of the Central Asian Orogenic Belt (CAOB). </span><b><i><span>Tectonophysics </span></i></b><span style="FONT-FAMILY: " advtt5235d5a9?,?serif?; color:black;line-height :115%;?="">674, 182-194. </span><span style="line- height:115%;"></span > </b>

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<b><span><span>47)<span>&nbsp; </span></span></span><span>Hao, L.L., Wang, Q., Wyman, D.A., Ou, Q., Dan, W., Jiang, Z.Q., Wu, F.Y., Yang, J.H., </span><b><span>Long, X.P.</span></b><span>, Li, J., 2016. Underplating of basaltic magmas and crustal growth in a continental arc: Evidence from Late Mesozoic intermediate–felsic intrusive rocks in southern Qiangtang. </span><b><i><span>Lithos</span></i></b><span> 245, 223-242. </span> </b>

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<b><span><span>48)<span>&nbsp; </span></span></span><span>Yin, J.Y., Chen, W., Xiao, W.J., Yuan, C., <b>Long, X.P.</b>, Cai, K.D., Zhang, B., 2016. </span><span><a href=" http://www.sciencedirect.com/science/article/pii/S1342937X16300508">< span style=" color:windowtext;"><span>Geochronology , petrogenesis, and technical significance & lt; span & gt; of the latest Devonian & lt; / span & gt; lt; / span & gt; lt; / span & gt; style = & quot; font family: Tahoma; color:windowtext;"><span> –</span></span><span style=" color:windowtext;">< span>early Carboniferous I-type granites in the Central Tianshan, NW China</span></span></a></span><span>. <b><i>Journal of Asian Earth Sciences</i></b></span><span> 124, 42-54.</span> </b>

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<b><span><span>49)<span>&nbsp; </span></span></span><span>Xia, X.P., Nie, X.S., Lai, C.K., Wang, Y.J., </span><b><span>Long, X.P.</span></b><span>, Meffre, S., 20</span><span>16. </span><span style="line- height:115%;">Where Was the Ailaoshan Ocean and when did it open: A perspective based on detrital zircon U-Pb age and Hf isotope evidence. </span><b><i><span>Gondwana Research</span></i></b><span>&nbsp;</span><span>36, 488-502</span><span style="line- height:115%;">.</span >< span> </span><span></span> </b>

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<b><span><span>50)<span>&nbsp; </span></span></span><span>Wang L.S., Yang P.F., Duan X.X., <b>Long X.P.</b>, Sun J.M., 2016. Isotopic age and genesis of plagiogranite from Qingshuiquan area in the middle of South Altyn Tagh. ACTA PETROLOGICA SINICA, 32(3): 759-774.</span>< span></span> </b>

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<b><span><span>51)<span>&nbsp; </span></span></span><b><span>Long, X.P.</span></b><span>, Wilde, S.A., Wang, Q., Yuan, C., Wang, X.-C., Li, J., Jiang, Z.Q., Dan, W., 2015. Partial melting of thickened continental crust in central Tibet: evidence from geochemistry and geochronology of Eocene adakitic rhyolites in the northern Qiangtang Terrane. <b><i>Earth and Planetary Science Letters</i></b> 414, 30–44. </span> </b>

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<b><span><span>52)<span>&nbsp; </span></span></span><b><span>Long, X.P.</span></b><span>, Wilde, S.A., Yuan, C., Hu, A.Q., Sun, M., 2015. Provenance of Paleoproterozoic metasedimentary rocks in the Kuluketage Block, northern Tarim Craton: implications for tectonic setting and crustal growth. <b><i>Precambrian Research</i></b> 260, 76–90.</span> </b>

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<b><span><span>53)<span>&nbsp; </span></span></span><span>Huang, Z.Y., <b>Long, X.P.*</b>, </span><span style="line- height:115%;">Kr öner, A., </span><span>Yuan, C., Wang, Y.J., Chen, B., Zhang, Y.Y., 2015. Neoproterozoic granitic gneisses in the Chinese Central Tianshan Block: Implications for tectonic affinity and Precambrian crustal evolution. <b><i>Precambrian Research</i></b> 269, 73–89. </span> </b>

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<b><span><span>54)<span>&nbsp; </span></span></span><span>Chen, B., <b>Long, X.P.</b> *, Yuan, C., Wang, Y.J., Sun, M., Xiao, W.J., Cai, K.D., Huang, Z.Y., 2015. Geochronology and geochemistry of Late Ordovician-Early Devonian gneissic granites in the Kumishi area, northern margin of the South Tianshan Belt: constraints on subduction process of the South Tianshan Ocean. <b><i>Journal of Asian Earth Sciences</i></b> 113, 293–309. </span> </b>

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<b><span><span>55)<span>&nbsp; </span></span></span><span>Yin, J.Y., Chen, W., Xiao, W.J., Yuan, C., Sun, M., Tang, G.J., Yu, S., <b>Long, X.P.</b>, Cai, K.D., Geng, H.Y., Zhang, Y., Liu, X.Y., 2015. Petrogenesis of Early-Permian sanukitoids from West Junggar, Northwest China: Implications for Late Paleozoic crustal growth in Central Asia. <b><i>Tectonophysics</i></b> 662, 385-397</span><span>.</span> </b>

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<b><span><span>56)<span>&nbsp; </span></span></span><span>He, Y.L., Sun, M., Cai, K.D., Xiao, W.J., Zhao, G.C., <b>Long, X.P.</b>, Li, P.F., 2015. Petrogenesis of the Devonian High-Mg rock association and its tectonic implication for the Chinese Altai orogenic belt, NW China. < b><i>Journal of Asian Earth Sciences </i></b>113, 61-74</span> </b>

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<b><span><span>57)<span>&nbsp; </span></span></span><span>Li, P.F., Sun, M., Yuan, C., <b>Long, X.P.</b>, Cai, K.D., 2015. Thermochronological constraints on the late Paleozoic tectonic evolution of the southern Chinese Altai. <b><i>Journal of Asian Earth Sciences< /i></b> 113, 51-60. </span> </b>

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<b><span><span>58)<span>&nbsp; </span></span></span><span>Zhang Y.Y., Sun, M., Yuan, C., Xu, Y.G., <b>Long, X.P.</b>, Tomurhuu, D., Wang, C.Y., He, B., 2015. Magma mixing origin for high Ba–Sr granitic pluton in the Bayankhongor area, central Mongolia: Response to slab roll–back. <b><i>Journal of Asian Earth Sciences</i></b> 113, 353-368</span><span>.</span> </b>

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<b><span><span>59)<span>&nbsp; </span></span></span><span>Chen, Q., Sun, M., <b>Long, X.P.</b>, Yuan, C., 2015. Petrogenesis of Neoproterozoic adakitic tonalites and high-K granites in the eastern Songpan-Ganze Fold Belt and implications for the tectonic evolution of the western Yangtze Block. </span><b><i><span style="line- height:115%;">Precambrian Research</span></i></b><span style=" line- height:115%;"> 270, 181-203.</span><span></span> </b>

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<b><span><span>60)<span>&nbsp; </span></span></span><span>Cai, K.D., Sun, M., Jahn, B.M., Xiao, W.J., Yuan, C., </span><b><span>Long, X.P.</span></b><span>, Geng, H.Y., Tumurkhuu, D., 2015. </span><span style="line- height:115%;"> A synthesis of zircon U & lt; / span & gt; & lt; span style = & quote; font family: italics_ GB2312;line- height:115%;"> –</span><span style="line- height:115%;">Pb ages and Hf isotopic compositions of granitoids from Southwest Mongolia: Implications for crustal nature and tectonic evolution of the Altai Superterrane. <b><i>Lithos</i></b></span><span> </span>< span style="line- height:115%;">232</span ><span>, </span><span style="line- height:115%;">131-142</span ><span>.</span><span></span> </b>

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<b><span><span>61)<span>&nbsp; </span></span></span><span style=" color:black;line-height :115%;">Yin, J.Y., Chen, W., Yuan, C., Yu, S., </span><span>Xiao, W.J., <b>Long, X.P.</b>, Li, J., Sun, J.B., 2015. Petrogenesis of Early Carboniferous adakitic dikes, Sawur region, northern West Junggar, NW China: Implications for geodynamic evolution. <b><i><span>Gondwana Research</span></i></b> 27, 1630-1645.</span> </b>

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<b><span><span>62)<span>&nbsp; </span></span></span><span>Zhang, Y.Y., Yuan, C., Sun, M., <b>Long, X.P.</b>, Xia, X.P., Wang, X.Y., Huang, Z.Y., 2015. <a href=" http://www.sciencedirect.com/science/article/pii/S0024493715001176"><span style=" color:windowtext; line- height:115%;"><span>Permian Doleritic dikes in the Beishan organic belt, & lt; span & gt; NW China: ashonosphere & lt; / span & gt; & lt; / span & gt; & lt; / span & gt; & lt; span style = & quot; font family: regular script_ GB2312; color:windowtext;line-height :115%;"><span>–</span></span><span style=" color:windowtext;line-height :115%;"><span>lithosphere interaction in response to slab break-off</span></span></a></span><span style="line- height:115%;"> </span><span> . </span><b><i><span style="line- height:115%;">Lithos</span ></i></b><span> </span><span style="line- height:115%;">233</span ><span>, </span><span style="line- height:115%;">174-192</span ><span>.</span><span>< /span> </b>

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<b><span><span>63)<span>&nbsp; </span></span></span><span>Wang, L.F., Chen, Q., <b>Long, X.P.</b>, Xu, B., Sun, L., 2015. Comparative analysis of groundwater fluorine levels and other characteristics in two areas of Laizhou Bay and its explanation on fluorine enrichment. <b>< i>Water Science &amp; Technology: Water Supply</i></b> 15, 384-394.</span> </b>

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<b><span style="line- height:115%;"><span>64 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Jiang , Y.D., Štípská, P., Sun, M., Schulmann, K., Zhang, J., Wu, Q.H., <b>Long, X.P., </b>Yuan, C., Racek, M., Zhao G.C., Xiao, W.J., 2015. Juxtaposition of Barrovian and migmatite domains in the Chinese Altai: a result of crustal thickening followed by doming of partially molten lower crust.</span><b><i><span> Journal of Metamorphic Geology</span></i></b><span style="line- height:115%;"> 33, 45</span><span> –</span><span style="line- height:115%;">70. </span> </b>

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<b><span style="line- height:115%;"><span>65 )<span>&nbsp; </span></span></span><span>Wang, L.S., Zhang, W., Duan, X.X., <b>Long, X.P.</b>, Ma, Z.P., Song, Z.B., Sun, J.M., 2015. <a><span style=" color:windowtext;"><span> Isotopic age and genesis of the monzogranitic gn<span>eiss at the Huanxingshan in middle Altyn Tagh</span></span></span></a>. </span><b><i><span>Acta Petrologica Sinica</span></i></b><span>&nbsp;31, 119-132.</span><span style="line- height:115%;" ></span> </b>

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≪ B & gt; & lt; B & gt; & lt; span & gt; 2014 & lt; / span & gt; & lt; / B & gt; & lt; B & gt; & lt; span style = & quot; font family: Tahoma & quot; year & lt; / span & gt; & lt; span & gt; & lt; / span & gt; & lt; / B & gt; & lt; / B & gt;

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<b><span><span>66)<span>&nbsp; </span></span></span><span>Wang Y.J., <b>Long, X.P.</b> *, Wilde, S.A., Xu, H.L., Sun, M., Xiao, W.J., Yuan, C., Cai, K.D., 2014. Provenance of Early Paleozoic metasediments in the central Chinese Altai: implications for tectonic affinity of the Altai-Mongolia terrane in the Central Asian Orogenic Belt. <b><i>Lithos</i></b> 210–211, 57–68. </span> </b>

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<b><b><span style="line- height:115%;"><span>67 )<span>&nbsp; </span></span></span></b><b><span style="line- height:115%;">Long , X.P.*</span></b><span style="line- height:115%;"> , Yuan, C., Sun, M., Kröner, A., </span>< span>Zhao, G.C.,</span><span style="line- height:115%;"> 201</span><span>4. New geochemical and combined zircon U–Pb and Lu–Hf isotopic data of orthogneisses in the northern Altyn Tagh, northern margin of the Tibetan Plateau: implication for Archean evolution of the Dunhuang Block and crust formation in NW China. </span><b><i><span style="line- height:115%;">Lithos</span ></i></b><span style="line- height:115%;"> </span><span>200–201, 418–431< /span><span style="line- height:115%;">. <b></b></span> </b>

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<b><span style="line- height:115%;"><span>68 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Guan , Y.Y., Yuan, C., Sun, M., Wilde, S., <b>Long, X.P.</b>, Huang, X.L., Wang, Q., 2014. I-type Granitoids in the Eastern Yangtze Block: Implications for the Early Paleozoic Intracontinental Orogeny in South China. </span><b><i><span>Lithos</span></i></b><span> </span><span style="line- height:115%;">206</span ><span>–</span><span style="line- height:115%;">207 , 34</span><span>–< /span><span style="line- height:115%;">51</span ><span>. </span><span style="line- height:115%;"></span > </b>

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<b><span style="line- height:115%;"><span>69 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Cai , K.D., Sun, M., Xiao, W.J., Yuan, C., Zhao, G.C., </span><b><span>Long, X.P.</span></b><span style="line- height:115%;" >, Tumurkhuu, D., Zhou, K.F., 2014. </span><span>Petrogenesis of late Paleozoic tholeiitic, Nb-enriched, calc-alkaline and adakitic rocks in the southwesternMongolia: implications for intra-oceanic arc evolution. </span><b><i><span>Lithos</span></i></b><span> </span>< span style="line- height:115%;">202</span ><span>–</span><span style="line- height:115%;">203 , 413</span><span>–</span><span style="line- height:115%;">428</span ><span>. </span><span style="line- height:115%;"></span > </b>

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<b><span><span>70)<span>&nbsp; </span></span></span><span>Cai, K.D., Sun, M., Xiao, W.J., Buslov, M.M., Yuan, C., Zhao, G.C., </span><b><span style="line- height:115%;">Long , X.P.</span></b><span>, 2014. Zircon U-Pb geochronology and Hf isotopic composition of granitiods in Russian Altai, Central Asian Orogenic Belt. <b><i><span>American Journal of Science</span></i></b> 314, 580–612. </span> </b>

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<b><b><span style="line- height:115%;"><span>71 )<span>&nbsp; </span></span></span></b><span>Huang, Z.Y., <b>Long, X.P.*</b>, </span><span style="line- height:115%;">Kr öner, A., </span><span>Yuan, C., Wang, Q., Sun, M., Zhao, G.C., Wang, Y.J., 2013. Geochemistry, zircon U–Pb ages and Lu–Hf isotopes of early Paleozoic plutons in the northwestern Chinese Tianshan: Petrogenesis and geological implications. <b><i>Lithos</i></b> 182–183, 48–66.</span><b><span style="line- height:115%;"> </span></b> </b>

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<b><b><span style="line- height:115%;"><span>72 )≪ span & gt; & nbsp; & lt; / span & gt; & lt; / span & gt; & lt; / span & gt; & lt; span & gt; Yin, J.Y., & lt; B & gt; long, x.p. * & lt; / B & gt;, yuan, C., sun, M., Zhao, G.C., Geng, H.Y., 2013. A late Carboniferous & lt; / span & gt; & lt; span style = & quot; font family: italics_ GB2312;">–</span><span>Early Permian slab window in the West Junggar of NW China: Geochronological and geochemical evidence from mafic to intermediate dikes. <b><i>Lithos</i></b> 175–176, 146–162.</span><b><span style="line- height:115%;"></span ></b> </b>

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<b><b><span style="line- height:115%;"><span>73 )<span>&nbsp; </span></span></span></b><b><span style="line- height:115%;">Long , X.P.</span></b><span style="line- height:115%;"> , Sun, M., Yuan, C., Kröner, A., Hu, A.Q., 2012. < /span><span>Zircon REE patterns and geochemical characteristics of Paleoproterozoic anatectic granite in the northern Tarim Craton, NW China: implications for the reconstruction of theColumbiasupercontinent. </span><b><i><span style="line- height:115%;">Precambrian Research</span></i></b> <span style="line- height:115%;"> 222</span><span>–</span><span style="line- height:115%;">223 , 474</span><span>–</span><span style="line- height:115%;">487. <b></b></span> </b>

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<b><b><span style="line- height:115%;"><span>74 )<span>&nbsp; </span></span></span></b><b><span>Long, X.P.</span></b><span>, Yuan, C., Sun, M., Xiao, W.J., Wang, Y.J., Cai, K.D., Jiang, Y.D., 2012. Geochemistry and Nd isotopic composition of the Early Paleozoic flysch sequence in the Chinese Altai, Central Asia: Evidence for a northward-derived mafic source and insight into Nd modle ages in accretionary orogeny. </span><b><i><span style="line- height:115%;">Gondwana Research</span></i>< /b><span style="line- height:115%;"> 22, 554</span><span>–</span><span style="line- height:115%;">566.<span> </span><b></b></span> </b>

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<b><b><span style="line- height:115%;"><span>75 )<span>&nbsp; </span></span></span></b><b><span>Long, X.P.</span></b><span>, Yuan, C., Sun, M., </span><span style="FONT-FAMILY: " cambria?,?serif?;line- height:115%; ?=""> Safonova,I.,</span><span> Xiao, W.J., Wang, Y.J., 2012. Geochemistry and U–Pb detrital zircon dating of Paleozoic graywackes inEast Junggar, NW China: Insights into subduction-accretion processes in the southern Central Asian Orogenic Belt. </span><b><i><span style="line- height:115%;"> Gondwana Research</span></i></b><span style="line- height:115%;"> 2</span><span>1, 637–653.</span><span style="line- height:115%;"> </span><b><span style="line- height:115%;"></span ></b> </b>

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<b><span><span>76)<span>&nbsp; </span></span></span><span>Cai, K.D., Sun, M., Yuan, C., Zhao, G.C., Xiao, W.J., </span><b><span style="line- height:115%;">Long , X.P.</span></b><span>, Wu, F.Y., 2012. Carboniferous mantle-derived felsic intrusion in the Chinese Altai, NW China: implications for geodynamic change of the accretionary orogenic belt. <b><i><span>Gondwana Research</span></i></b> 22, 681</span><span>–</span><span>698.</span> </b>

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<b><span><span>77)<span>&nbsp; </span></span></span><span>Jiang, Y.D., Sun, M., </span><span style="line- height:115%;">Kr öner, A., </span><span style="FONT-FAMILY: " advtt5235d5a9?,?serif?;line- height:115%; ?="">Tumurkhuu,</span>< span> D., <b><span>Long, X.P.</span></b>, Zhao, G.C., Yuan, C., Xiao, W.J., 2012. The high-grade Tseel Terrane inSW Mongolia: An Early Paleozoic arc system or a Precambrian sliver? <b><i><span>Lithos</span></i></b></span><span style="line- height:115%;"> 142< /span><span>–</span><span style="line- height:115%;">143 , 95</span><span>–</span><span style="line- height:115%;">115.</span ><span></span> </b>

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<b><span><span>78)<span>&nbsp; </span></span></span><span>Cai, K.D., Sun, M., Yuan, C., Zhao, G.C., Xiao, W.J., </span><b><span style="line- height:115%;">Long , X.P.</span></b><span>, 2012. </span><span style="line- height:115%;"> Keketuohai mafic–ultramafic complex in the Chinese Altai, NW China: Petrogenesis and geodynamic significance. <b><i>Chemical Geology</i></b></span><span> 294–295, 26</span><span>–</span><span>41.</span><span> </span><span></span> </b>

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<b><span><span>79)<span>&nbsp; </span></span></span><span>Yin, J. Y., Yuan, C., Sun, M., <b>Long, X. P.</b>, Qiu, H. N., Wang, Y. J., Ren, J. B., Guan, Y. L., Age, geochemical features and possible petrogenesis mechanism of Early Permian magnesian diorite in Hatu, Xinjiang. < /span><b><i><span>Acta Petrologica Sinica </span></i></b><span>2012, 28 (7), 2171-2182.</span><span></span> </b>

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<b><b><span style="line- height:115%;"><span>80 )<span>&nbsp; </span></span></span></b><b><span style="line- height:115%;">Long , X.P.</span></b><span style="line- height:115%;"> , Yuan, C., Sun, M., Kröner, A., Zhao, G.C., Wilde, S., Hu, A.Q., 2011. </span><span>Reworking of the Tarim Craton by underplating of mantle plume-derived magmas: evidence from Neoproterozoic granitoids in the Kuluketage area, NW China. </span><b><i><span style="line- height:115%;">Precambrian Research</span></i></b><span style=" line- height:115%;"> 187, 1<span>–</span>14. <b></b></span> </b>

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<b><span style="line- height:115%;"><span>81 )<span>&nbsp; </span></span></span><b><span style="line- height:115%;">Long , X.P.</span></b><span style="line- height:115%;"> , Yuan, C., Sun, M., Xiao, W.J., Zhao, G.C., Zhou, K.F, Wang, Y.J., Hu, A.Q., 2011. The discovery of the oldest rocks in the Kuluketage area and its geological implications. <b><i>ScienceChina: Earth Sciences</i></b> 54, 342<span>–</span>348. </span> </b>

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<b><span style="line- height:115%;"><span>82 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Wang , Y.J., Yuan, C., <b>Long, X.P.</b>, Sun, M., Xiao, W.J., Zhao, G.C., Cai, K.D., Jiang, Y.D., 2011. Geochemistry, zircon U-Pb ages and Hf isotopes of the Paleozoic volcanic rocks in the northwestern Chinese Altai: Petrogenesis and tectonic implications. <b><i>Journal of Asian Earth Sciences</i></b> 42, </span><span>969</span><span style="line- height:115%;"> –</span><span>985</span> <span style="line- height:115%;">. </span> </b>

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<b><span style="line- height:115%;"><span>83 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Yuan , C., Sun, M., Xu, Y.G., Zhao, G.C., Xiao, W.J., <b>Long, X.P.</b>, Yin, J.Y., 2011. Oceanic lithospheric mantle beneath the continental crust of the Chinese Altai. <b><i>Journal of the Geological Society</i></b> 168, 995–1000. </span> </b>

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<b><span><span>84)<span>&nbsp; </span></span></span><span>Cai, K.D., Sun, M., Yuan, C., Zhao, G.C., Xiao, W.J., </span><b><span style="line- height:115%;">Long , X.P.</span></b><span>, Wu, F.Y., 2011. Prolonged magmatism, juvenile nature and tectonic evolution of the Chinese Altai, NW China: Evidence from zircon U-Pb and Hf isotopic study of Paleozoic granitoids. <b><i><span>Journal of Asian Earth Sciences</span></i></b> 42, 949</span><span style="line- height:115%;"> –</span><span>968.< /span> </b>

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<b><span><span>85)<span>&nbsp; </span></span></span><span>Cai, K.D., Sun, M., Yuan, C., Zhao, G.C., Xiao, W.J., </span><b><span style="line- height:115%;">Long , X.P.</span></b><span>, 2011. Geochronology, petrogenesis and tectonic significance of peraluminous granites from the Chinese Altai, NW China. <b><i><span>Lithos</span></i></b> 127, 261</span><span style="line- height:115%;"> –</span><span>281.</span> </b>

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<b><span><span>86)<span>&nbsp; </span></span></span><span>Cai, K.D., Sun, M., Yuan, C., </span><b><span style="line- height:115%;">Long , X.P.</span></b><span>, Xiao, W.J., 2011. Geological framework and Paleozoic tectonic history of the Chinese Altai, NW China: a review. <b><i><span>Russian Geology and Geophysics</span></i></b> </span><span style="line- height:115%;">52 , 1585–1599</span><span>.</span> </b>

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<b><span style="line- height:115%;"><span>87 )<span>&nbsp; </span></span></span><span>Jiang, Y.D., Sun, M., Zhao, G.C., Yuan, C., Xiao, W.J., Xia, X.P., <b><span>Long, X.P.</span></b>, Wu, F.Y., 2011. Precambrian detrital zircons in the Early Paleozoic Chinese Altai: their provenance and implications for the crustal growth of centralAsia. <b><i><span>Precambrian Research</span></i></b></span><span style="line- height:115%;"> 189, 140</span><span>–</span><span style="line- height:115%;">154. </span> </b>

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<b><span style="line- height:115%;"><span>88 )<span>&nbsp; </span></span></span><b><span style="line- height:115%;">Long , X.P.</span></b><span style="line- height:115%;"> , Yuan, C., Sun, M., Zhao, G.C., Xiao, W.J., Wang, Y.J., Yang, Y.H, Hu, A.Q., 2010. Archean Crustal Evolution of the Northern Tarim Craton, NWChina: Zircon U</span><span>–</span><span style="line- height:115%;">Pb and Hf Isotopic Constraints. <b><i>Precambrian Research</i></b> 180, 272<span>–</span>284.<span> </span></span> </b>

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<b><span style="line- height:115%;"><span>89 )<span>&nbsp; </span></span></span><b><span style="line- height:115%;">Long , X.P.</span></b><span style="line- height:115%;"> , Yuan, C., Sun, M., Xiao, W.J., Zhao, G.C., Wang, Y.J., Cai, K.D, Xia, X.P, Xie, L.W., 2010. Detrital zircon U–Pb ages and Hf isotopes of the early Paleozoic flysch sequence in the Chinese Altai, NW China: New constrains on depositional age, provenance and tectonic evolution. <b><i>Tectonophysics</i></b> 480, 213<span>–</span>231.<span> </span></span> </b>

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<b><span style="line- height:115%;"><span>90 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Yuan , C., Zhou, M.F., Sun, M., Zhao, Y.J., Wilde, S., <b>Long, X.P.</b>, Yan, DP., 2010. Triassic granitoids in the eastern Songpan Ganzi Fold Belt, SW China: Magmatic response to geodynamics of the deep lithosphere. <b><i>Earth and Planetary Science Letters</i></b> 290, 481–492. </span> </b>

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<b><span style="line- height:115%;"><span>91 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Yuan , C., Sun, M., Wilde, S., Xiao, W.J., Xu, Y.G., <b>Long, X.P.</b>, Zhao, G.C., 2010. Post-collisional plutons in the Balikun area, East Chinese Tianshan: Evolving magmatism in response to extension and slab break-off. <b><i>Lithos</i></b> 119, 269–288. </span> </b>

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<b><span style="line- height:115%;"><span>92 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Yin , J.Y., Yuan, C., Sun, M., <b>Long, X.P.</b>, Zhao, G.C., Wong, K.P., Geng, H.Y., Cai, K.D., 2010. Late Carboniferous high-Mg dioritic dikes inWestern Junggar, NW China: Geochemical features, petrogenesis and tectonic implications. <b><i>Gondwana Research</i></b> 17, 145<span>–</span>152.<span></span></span> </b>

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<b><span style="line- height:115%;"><span>93 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Cai , K.D., Sun, M., Yuan, C., Zhao, G.C., Xiao, W.J., <b>Long, X.P.</b>, Wu, F.Y., 2010. Geochronological and Geochemical study of mafic dykes from the northwest Chinese Altai: implications for ocean ridge subduction in the Devonian. <b><i>Gondwana Research</i></b> 18, 638–652. </span> </b>

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<b><span style="line- height:115%;"><span>94 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Jiang , Y.D., Sun, M., Zhao, G.C., Yuan, C., Xiao, W.J., Xia, X.P., <b>Long, X.P.,</b> Wu, F.Y., 2010. The ~390 Ma high-T metamorphic event in the Chinese Altai: A consequence of ridge-subduction? <b><i>American Journal of Science</i></b> 310, 1421–1452. </span> </b>

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<b><span style="line- height:115%;"><span>95 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Sun , M., <b>Long, X.P.</b>, Cai, K.D., Jiang, Y.D., Wang, B.Y., Yuan, C., Zhao, G.C., Xiao, W.J., Wu, F.Y., 2009. Early Paleozoic ridge subduction in the Chinese Altai: Insight from the abrupt change in zircon Hf isotopic compositions. <b><i>Science inChinaSeries D: Earth Sciences</i></b> 52, 1345<span>–</span>1348.<span> </span></span> </b>

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<b><span style="line- height:115%;"><span>96 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Yuan , C., Sun, M., Xiao, W.J., Wilde, S., Li, X.H., Liu, X.H., <b>Long, X.P.</b>, Xia, X.P., Ye, K. Li, J.L., 2009. Garnet-bearing tonalitic porphyry fromEast Kunlun, Northeast Tibetan Plateau: implications for adakite and magmas from the MASH Zone. <b><i>International Journal of Earth Sciences</i></b> 98, 1489<span>–</span>1510.<span> </span></span> </b>

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<b><span style="line- height:115%;"><span>97 )<span>&nbsp; </span></span></span><b><span style="line- height:115%;">Long , X.P.</span></b><span style="line- height:115%;"> , Sun, M., Yuan, C., Xiao, W.J., Cai, K.D., 2008. Early Paleozoic sedimentary record of the Chinese Altai: implications for its tectonic evolution. <b><i>Sedimentary Geology</i></b> 208, 88<span>–</span>100. <span></span></span> </b>

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<b><span style="line- height:115%;"><span>98 )<span>&nbsp; </span></span></span><b><span>Long, X.P.</span></b><span>, Yuan, C., Sun, M., Xiao, W.J., Lin, S.F., Wang, Y.J., Cai, K.D., 2008. Geochemical characteristics and sedimentary environments of Devonian low metamorphic clastic sedimentary rocks in the southern margin of the Chinese Altai,North Xinjiang. </span><b><i><span>Acta Petrologica Sinica</span></i></b><span> 24, 718–732.</span><span style=" line- height:115%;"></span > </b>

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<b><span style="line- height:115%;"><span>99 )<span>&nbsp; </span></span></span><span style="line- height:115%;">Sun , M., Yuan, C., Xiao, W.J., <b>Long, X.P.</b>, Xia, X.P., Zhao, G.C., Lin, S.F., Wu, F.Y., Kröner, A., 2008. Zircon U–Pb and Hf isotopic study of gneissic rocks from the Chinese Altai: progressive accretionary history in the early to middle Palaeozoic, <b><i>Chemical Geology</i></b> 247, 352–383. </span> </b>

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<b><span style="line- height:115%;"><span>100 )<span>&nbsp;</span></span></span><b><span style="line- height:115%;">Long , X.P.</span></b><span style="line- height:115%;"> , Sun, M., Yuan, C., Xiao, W.J., Lin, S.F., Wu, F.Y., Xia, X.P., Cai, K.D., 2007. U–Pb and Hf isotopic study of zircons from metasedimentary rocks in the Chinese Altai: Implications for Early Paleozoic tectonic evolution. <b><i>Tectonics</i></b> 26, TC5015, doi:10.1029/2007TC002128. </span><span style="line- height:115%;"></span > </b>

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<span style="font- size:18px;">2. Research projects & lt; / span & gt;

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Long Xiaoping

Departments:Petrology & Mineralogy Teaching and Research Office,State Key Laboratory of Continental Dynamics
Title:Professor
Honors:Winner of National Excellent Young Scientists Fund
Direction:The collision process of the Qinghai Tibet Plateau and the growth of the Meso Cenozoic crust, the records of major geological events and the changes of paleoenvironment, the formation and transformation of the Tarim North China Craton, and the chronology of hydrocarbon accumulation
Tel:029-88302456 15502961221,科研楼东606
Email:longxp@nwu.edu.cn

Location:Home > Faculty > Honor & Title >