Department of geology northwest university

Teacher Name

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1、 Profile & lt; br / & gt;

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Tong Laixi, male, Ph.D., researcher, doctoral supervisor, graduated from Geology Department of Northwest University in 88 years, master in 91 years, majored in petrology of Institute of geology of Chinese Academy of Sciences and worked in the institute until the end of 98, during which he was studying in-service Ph.D. at the end of 2004, he graduated from metamorphic geology of School of geoscience of University of Melbourne, Australia, and earth of Central Research Institute of Taiwan in 05-07 The Institute of science is engaged in postdoctoral research. In 2008-18, he worked in Guangzhou Institute of geochemistry, Chinese Academy of Sciences, as a special researcher. For many years, he has been engaged in the research on the metamorphic evolution history of Precambrian & lt; span & gt; high temperature & lt; / span & gt; / ultrahigh temperature metamorphic rocks in the southeast pole for a long time. He has participated in many field geological investigations in Antarctica by the National Antarctic Research team and presided over or participated in many NSFC projects. In recent years, he has participated in the national "973" project, the special project of South China deep & lt; span & gt; Ministry and the strategic leading project of Chinese Academy of Sciences & lt; / span & gt; (b), and has carried out innovative research on ultrahigh temperature metamorphic rocks in Altai area and preliminary research on Caledonian metamorphic rocks in South China. The main research results are as follows: (1) the high temperature metamorphic mineral assemblage containing pseudosapphire was found in the Rasman hills, (2) The high-pressure mineral assemblage with early kyanite was found in the ultra-high temperature granulite with pseudosapphire in the jur islands, which revised the metamorphic evolution history of the area. (3) the Permian ultrahigh temperature granulite mineral assemblage was found near the Kalasu, Altay. (4) the early stage & lt; span & gt; 9-10 & lt; / span & gt was recognized in the Rasman hills; The metamorphic mineral assemblage is 100 million years old, and its metamorphic evolution history has been reestablished. At present, he is a member of the editorial board of frontier in Earth Sciences, an expert of polar expert database of SOA, a postdoctoral fund review expert, and a member of the 8th and 9th National metamorphic rock professional committees. In terms of academic research, the English journals invited for manuscript review are & lt; span & gt;: & lt; / span & gt; Gondwana research, Precambrian research, LITHOS, American Journal of science, Journal of metallic geology, mineral & amp; petroleum, geological journal, geological magazine, International Geological review, Journal of Asian Earth Sciences, Science Bulletin, Journal of Earth Science, advance in polar science, etc., domestic journals: Chinese science, science bulletin, rock journal, geoscience, geotectonics and metallogeny, polar research, rock mineralogy, etc. & nbsp;

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Students who are interested in the study of metamorphic evolution history of polar metamorphic rocks, especially ultrahigh temperature granulites, are welcome to apply for the doctoral degree in this field, as well as interested postdoctoral students.

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2、 Scientific research

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1. Academic papers

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<span>Liu, Z., <b>Tong, L</b>., Bartoli, O., Carvalho, B.B., Li, C., 2020. Low-pressure granulite-facies metamorphism in the southern Chinese Altay orogenic belt, NW China: P-T estimates, U-Pb ages and tectonic implications. <i><strong>Geochemistry</strong></i></span><span>,</span>< span> <b>80</b>, 125603.</span><span style="font-family:&quot;;"> </span><span style="font-family:&quot;;">(<span style="color:#0070c0;">SCI</span>)</span><span></span>

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<span>Liu, Z., Bartoli, O., <b>Tong, L<sup>*</sup></b>., Carvalho, B.B., Xu, Y.G., Gianola, O., Li, C., 2020. Anatexis and metamorphic history of Permian pelitic granulites from the southern Chinese Altai: constraints from petrology, melt inclusions and phase equilibria modelling. <i><strong>Lithos< /strong></i></span><span>,</span><span> <b>360-361</b>, 105432.</span><span style="font-family:&quot;;"> </span><span style="font-family:&quot;;">(<span style="color:#0070c0;">SCI</span>)</span><span style=" font-family:&quot;;"></span>

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

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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; Liu Z., Bartoli, O., <b>Tong L*</b>., Xu, Y.G., Huang, X., 2020. Permian ultrahigh-temperature reworking in the southern Chinese Altai: evidence from petrology, P-T estimates, zircon and monazite U-Th-Pb geochronology. <i><strong>Gondwana Research< /Strong & gt; & lt; / I & gt;, & lt; B & gt; 78 & lt; / B & gt;, 20-40. (corresponding author) (SCI)

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<span><b>&nbsp; &nbsp; &nbsp;&nbsp; Tong L</b>., Liu Z., Li Z.X., Liu X., Zhou X., 2019. Poly-phase metamorphism of garnet-bearing mafic granulite from the Larsemann Hills, East Antarctica: P-T path, U-Pb ages and tectonic implications. <i><strong>Precambrian Research</strong></i>, < strong>326</strong>, 385-398. (SCI)</span>

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<span>2.</span>&nbsp;&nbsp;&nbsp;&nbsp; <span><b>Tong L</b>., Jahn B.M., Liu X., Liang X., Xu Y.G., Ionov D., 2017. Ultramafic to mafic granulites from the Larsemann Hills, East Antarctica: Geochemistry and tectonic implications. <i><strong>Journal of Asian Earth Sciences</strong>< /i>, <b>145</b>, 679-690. (SCI)</span>

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<span>3.</span>&nbsp;&nbsp;&nbsp;&nbsp; <span><b>Tong L</b>., Liu X., Wang Y., Liang X., 2014. Metamorphic P-T paths of metapelitic granulites from the Larsemann Hills, East Antarctica. <i><strong>Lithos</strong></i>, <b>192-195</b>,102-115.(SCI)</span>& nbsp;

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<span>4.</span>&nbsp;&nbsp;&nbsp;&nbsp; <span><b>Tong L</b>., Xu Y.G., Cawood P.A., Zhou X., Chen Y., Liu Z., 2014. Anticlockwise P-T evolution at ~280 Ma recorded from ultrahigh-temperature metapelitic granulite in the Chinese Altai orogenic belt, a possible link with the Tarim mantle plume? <i> <strong>Journal of Asian Earth Sciences</strong></i>, <b>94</b>, 1-11. (SCI)</span>&nbsp;

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<span>5.</span>&nbsp;&nbsp;&nbsp;&nbsp; <span><b>Tong L</b>., Jahn B.M. &amp; Zheng Y.F., 2011. Diverse P-T paths of the northern Dabie complex in central China and their reworking in the early Cretaceous. <i><strong>Journal of Asian Earth Sciences</strong></i>, <b> 42</b>, 633-640. (SCI)</span>&nbsp;

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<span>6.</span>&nbsp;&nbsp;&nbsp;&nbsp; <span><b>Tong L</b>., Jahn B.M., Iizuka Y. &amp; Xu Z., 2007. Assemblages and textural evolution of UHP eclogites from the Chinese Continental Scientific Drilling main hole. <i><strong>International Geology Review</strong></i>, < b>49</b>, 73-89. (SCI)</span>&nbsp;

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<span>7.</span>&nbsp;&nbsp;&nbsp;&nbsp; <span><b>Tong L</b>. &amp; Wilson C.J.L., 2006. Tectonothermal evolution of the ultrahigh temperature metapelites from the Rauer Group, east Antarctica. <i><strong>Precambrian Research</strong></i>, <b>149</b>, 1-20. (SCI)</span>&nbsp;

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<span>8.</span> &nbsp;&nbsp; <span><b>Tong L</b>., Wilson C.J.L. &amp; Vassallo J.J., 2004. Metamorphic evolution and reworking of the Sleaford Complex metapelites in the southern Eyre Peninsula, South Australia. <i><strong>Australian Journal of Earth Sciences</strong></i>, < b>51</b>, 571-589. (SCI)</span>&nbsp;

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<span>9.</span>&nbsp;&nbsp;&nbsp;&nbsp; <span><b>Tong L</b>., Chen Y., Chen L., 2014. Confirmation of ultrahigh-temperature metapelitic granulite in the Altay orogen and its geologic significance. <i><strong>Chinese Science Bulletin</strong></i>, <b>59</b>, 3441-3448. (SCI)</span>&nbsp;

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<span>10.</span> &nbsp; <span><b>Tong LX, </b>Chen YB, Xu YG, Zhou X &amp; Liu Z. 2013. Zircon U-Pb ages of the ultrahigh-temperature metapelitic granulite from the Altai orogeny, NW China, and geological implications. <i><strong>Acta Petrologica Sinica</strong></i>, <b>29< /b>, 3435-3445. (SCI)</span>&nbsp;

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&nbsp; &nbsp; &nbsp; &nbsp;&nbsp;<span style="text-d ecoration:none;font-family :&amp;font- size:12px;font-weight :400;color:#000000;font- style:normal;background-color :transparent;"><b>Tong L</b>., Wilson C.J.L. &amp; Liu X., 2002. A high-grade event of ~1100 Ma preserved within the ~500 Ma mobile belt of the Larsemann Hills, East Antarctica: further evidence from Ar-Ar dating, <i><strong>Terra Antartica</strong></i>, <b>9</b>, 73-86. </span><SPAN style="FONT-FAMILY: ; COLOR: #000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration :none;?="" sans="">&nbsp;</span>

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<SPAN style="FONT-FAMILY: ; COLOR: #000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration :none;?="" sans=""></span>

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<span>1.</span>&nbsp;&nbsp;&nbsp;&nbsp; <span><b>Tong L</b>., Liu X., Zhang L., Chen H., Chen F., Wang Y. &amp; Ren L., 1998. The Ar-Ar ages of hornblendes in Grt-Pl-bearing amphibolite from the Larsemann Hills, East Antarctica and their geological implications. <i><strong> Chinese Journal of Polar Science</strong></i>, <b>9</b>, 79-91<span>.&nbsp;</span></span>

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<span>2.</span>&nbsp;&nbsp;&nbsp;&nbsp; <span><b>Tong L</b>. &amp; Liu X., 1997. The prograde metamorphism of the Larsemann Hills, East Antarctica: evidence for an anticlockwise P-T path. <i>The Antarctic Region: Geological Evolution and Processes</i>, ed. Ricci C.A., Terra Antartica Publication, Siena, 105-114.&nbsp;</span>

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<span>11.</span> &nbsp; <span><b>Tong L</b>., Liu X., Xu P., Han X., Zhao Y., Ren L. &amp; Wang Y., 1997. Discovery of sapphirine-bearing hyperthene quartzite in the Larsemann Hills, East Antarctica and its geological significance. <i><strong>Chinese Science Bulletin</strong></i>, < b>42</b>, 324-327<span>. </span>(SCI)</span>&nbsp;

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<span>12.</span> &nbsp; <span><b>Tong L</b>, Zhang Z, Liu X, Han X &amp; Liu W.<span> 1997. Mineralogical characteristics of cordierites in Krn-Hy-Crd granulites from the Larsemann Hills, East Antarctica. </span><i><strong>Acta Petrologica Sinica</strong></i>, <span> <b>3</b>, 395-405. </span>(SCI)</span>&nbsp;

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<span>13.</span> &nbsp; <span><b>Tong L</b>, Liu X, Zhang L, Chen H, Ren L, Wang Y &amp; Zhao Y.<span> 1997. Characteristics of the eraly remnant mineral associations in granulite facies rocks from the Larsemann Hills, East Antarctica and metamorphic P-T conditions. </span><i><strong> Acta Petrologica Sinica</strong></i>, <span><b>2</b>, 127-138. </span>(SCI)</span>&nbsp;

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&nbsp; &nbsp; &nbsp; &nbsp;<span style="text-d ecoration:none;font-family :&amp;font- size:12px;font-weight :400;color:#000000;font- style:normal;background-color :transparent;"><b>Tong L</b>., Liu X., Zhang L. &amp; Chen F., 1995. The U-Pb zircon chronology of mafic granulite from the Larsemann Hills, East Antarctica and its possible geological implications. <i><strong>Terra Antartica</strong></i>, <b>2</b>, 123-126.</span>

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<span>14.</span> &nbsp; <span><span>Liu Z &amp; <b>Tong LX</b>*, </span>2015<span>. </span>The petrogenetic link between the Late Palaeozoic high-temperature metamorphism in the Altay orogen and the Tarim mantle plume&nbsp;: evidence from metapelitic and mafic granulites. <i> ≪ strong & gt; Acta petrologica Sinica & lt; / strong & gt; & lt; / I & gt;, & lt; B & gt; 31 & lt; / B & gt;, 1761-1773. (corresponding author) (SCI) & lt; / span & gt; & nbsp;

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≪ B & gt; 30 & lt; / B & gt;, 1731-1747. (corresponding author) (SCI) & lt; /span>&nbsp;

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<span>16.</span> &nbsp; <span>Liu WP, Wang H, <b>Tong LX</b>*, Wu YF, Huang CY &amp; Hu J. 2013. Geochemical characteristics and metamorphic P-T paths of the Bulunkuole Group in Taxkorgan, western Kunlun.<i> Acta Petrologica Sinica</i><strong>, </strong><b><strong>29< /Strong & gt; & lt; / B & gt; & lt; strong & gt;, & lt; / strong & gt; 923-937. (corresponding author) & lt; strong & gt; (& lt; / strong & gt; & lt; span & gt; & lt; / span & gt; SCI) & lt; / span & gt; & nbsp;

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<span>1.</span>&nbsp;&nbsp;&nbsp;&nbsp; <span>Liu XH, <b>Tong LX</b>, Shi RD, Li GW, Chen SS, Zhou XJ, Liu Z, 2018. Discovery of Cenozoic magnetite volcanic rock in High Himalaya and its tectonic significance. <i><strong>Acta Petrologica Sinica</strong></i>, <b>34< /b>, 1876-1884. (SCI)</span>

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<span><span>1.</span> &nbsp; &nbsp; <span>Peng YB, Yu S, Zhang J, Li SZ, <b>Tong L</b>, Sun DY, 2017. Early Paleozoic arc magmatism and metamorphism in the northern Qilian Block, western China: petrological and geochronological constraints. <i><strong>Geological Journal</strong>< /i>, <b>52</b>, 339-364. (SCI)</span></span>&nbsp;

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<span>1.</span> &nbsp; &nbsp; <span>Qiu Z, Yan Q, Li S, Wang H, <b>Tong L</b>, Zhang R, Wei X, Li P, Wang L, Bu A, Yan L, 2017. Highly fractionated Early Cretaceous I-type granites and related Sn polymetallic mineralization in the Jinkeng deposit, eastern Guangdong, SE China: constraints from geochemistry, geochronology, and Hf isotopes. <i><strong>Ore Geology Reviews</strong></i>, <b>88</b>, 718-738. (SCI)</span>&nbsp;

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<span>17.</span> &nbsp; <span>Hu J, Wang H, Huang C, <b>Tong L</b>, Mu S &amp; Qiu Z, 2016. Geological characteristics and age of the Dahongliutan Fe-ore deposit in the Western Kunlun orogenic belt, Xinjiang, northwestern China. <i><strong>Journal of Asian Earth Sciences</strong></i>, <b>116</b>, 1-25. (SCI)</span>&nbsp;

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<span>20.</span> &nbsp; <span>Huang XL., Yu Y., Li J., <b>Tong LX.</b>, Chen L.L., 2013. Geochronology and petrogenesis of the early Paleozoic I-type granite in the Taishan area, South China: middle-lower crustal melting during orogenic collapse. <i><strong>Lithos</strong></i>, <b> 177</b>, 268-284. (SCI)</span>&nbsp;

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<span>21.</span> &nbsp; <span>Yu SY., Xu YG., Ma JL., Zheng YF., Kuang YS, Hong LB, Ge WC &amp; <b>Tong LX</b>., 2010. Remnants of oceanic lower crust in the subcontinental lithospheric mantle: trace element and Sr-Nd-O isotopic evidence from aluminous garnet pyroxenite xenoliths from Jiaohe, Northeast China. <i><strong>Earth and Planetary Science Letters</strong></i>, <b>297</b>, 413-422. (SCI)</span>&nbsp;

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<span>22.</span> &nbsp; <span>Liu JP, Wang H, Li SH, <b>Tong LX</b> &amp; Ren GL. 2010. Geological and geochemical features and geochronology of the Kayizi porphyry molybdenum deposit in the northern belt of western Kunlun,NW China. <i><strong>Acta Petrologica Sinica</strong></i>, < b>26</b>, 3095-3105. (SCI)</span>&nbsp;

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<span>23.</span> &nbsp; <span>Liu J., Sun Y., <b>Tong L</b>. &amp; Sun W., 2009. The emplacement age of the Songshugou ultramafic massif in Qinling orogenic belt and implications. <i><strong>International Geology Review</strong></i>, <b>5</b><b>1</b>, 58-76. (SCI)</span>&nbsp;

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<span>24.</span> &nbsp; <span>Wang Y., Liu D., Chung S.L., <b>Tong L</b>. &amp; Ren L., 2008. SHRIMP zircon U-Pb age constraints from the Larsemann Hills region, Prydz Bay, for a late Mesoproterozoic to early Neoproterozoic tectonothermal event in east Antarctica. <i><strong> American Journal of Science</strong></i>, <b>308</b>, 573-617. (SCI)</span>&nbsp;

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<span>25.</span> &nbsp; <span>Wilson C.J.L., Quinn C., <b>Tong L</b>. &amp; Phillips D., 2007. Early Palaeozoic intracratonic shears and post-tectonic cooling in the Rauer Group, Prydz Bay, east Antarctica constrained by Ar/Ar thermochronology. <i><strong>Antarctic Science</strong></i>, <b>19</b>, 339-353. (SCI)</span>&nbsp;

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<span>26.</span> &nbsp; <span>Wang Y., <b>Tong L</b>. &amp; Liu D., 2007. Zircon U-Pb ages from an ultra-high temperature metapelite, Rauer Group, east Antarctica: implications for overprints by Grenvillian and Pan-African events. USGS OF-2007-1047, Short Res. Paper 023, doi:10.3133/of 2007- 1047.srp023< /span>&nbsp;

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&nbsp; &nbsp; &nbsp; &nbsp; <span>Li Z., <b>Tong L</b>., Liu X., Ren L., Jin M. &amp; Liu M., 2000. Quadrupole splitting distributions in grandidierite and kornerupine from Antarctica. <i><strong>Hyperfine</strong></i> <i><strong>Interactions</strong></i>, < b>131</b>, 91-102. (SCI)</span>&nbsp;

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&nbsp; &nbsp; &nbsp; &nbsp;&nbsp;<span style="text-d ecoration:none;font-family :&amp;font- size:12px;font-weight :400;color:#000000;font- style:normal;background-color :transparent;">Zhang L., <b>Tong L</b>., Liu X. &amp; Scharer U., 1996. Conventional U-Pb age of the high-grade metamorphic rocks from the Larsemann Hills, East Antarctica. <i>Advances in Solid Earth Sci.</i>, ed. Pang Z. et al., Science Press, Beijing, 27-35.&nbsp;</span><span style="text-d ecoration:none;font-family :&amp;font- size:12px;font-weight :400;color:#000000;font- style:normal;background-color :transparent;"> </span>< SPAN style="FONT-FAMILY: ; COLOR: #000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration :none;?="" sans=""></span>

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<span>30.</span> &nbsp; <span>Chen F, <b>Tong L</b> &amp; Liu X, 1998. Nd, Sr and Pb isotope systematics of ultramafic rocks from the Larsemann Hills, East Antarctica. <i>Chinese Science Bulletin</i>, <b>43</b>(supp), 20-20. </span>&nbsp;

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<span>31.</span> &nbsp; <span><b>Tong L</b>., Jahn B.M., Iizuka Y., 2007. First report on pigeonite exsolution in clinopyroxene in UHP mafic rocks from the North Dabie Complex (China) and its significance. <i>Geophysical Research</i>, Vol.9, 02485, SRef-ID: 1607-7962/gra/EGU2007-A-02485.</span>

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<span>32.</span> &nbsp; <span><b>Tong L</b>., Jahn B.M., Chen F., Liu X., Wang Y., 2006. Geochemistry of mafic to ultramafic granulites from the Lasremann Hills, east Antarctica. <i>Geochimica et Cosmochimia Acta</i>, <b>70</b> (18), A654. </span>&nbsp;

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<span>33.</span> &nbsp; <span><b>Tong L</b>., Jahn B.M., Okamoto K., Izuka Y., Xu Z., 2005. Prograde and retrograde metamorphic evolution of UHP eclogites from the main hole of CCSD, China. 2005 AGU fall meeting (abst), Dec, 2005. </span>&nbsp;

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<span>35.</span> &nbsp; <span><b>Tong L</b>., Vassallo J.J. &amp; Wilson C.J.L., 2001. Tectonic significance of the P-T-D path of the Sleaford Complex granulites at Fishery Bay, Eyre Peninsula, South Australia. <i>2001: A Structural Odyssey</i>, Tasmania, Geological Society of Australia (abst), No. <b>64</b>, 183-184. </span>&nbsp;

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&& lt; / span & gt; & nbsp;

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≪ span & gt; 1. & lt; / span & gt; & nbsp; nbsp; & nbsp; nbsp; & lt; span & gt; Chen Xiangyan, & lt; B & gt; Tong Laixi & lt; / B & gt;, Zhang Chuanlin, Zhu Qingbo, Li Yanan, 2016. ≪ I & gt; scientific bulletins & lt; / I & gt;, & lt; B & gt; 61 & lt; / B & gt;, 561-565. & lt; / span & gt;

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≪ span & gt; 2. & lt; / span & gt; Chen Xiangyan, & lt; B & gt; Tong Laixi & lt; / B & gt;, Zhang Chuanlin, Zhu Qingbo, Li Yanan, 2015. Garnet amphibolite (retrograde eclogite) in Longyou, Zhejiang Province: new evidence of Caledonian collision and mountain building in China. ≪ I & gt; scientific bulletins & lt; / I & gt;, & lt; B & gt; 60 & lt; / B & gt;, 1207-1217. & lt; / span & gt;

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≪ span & gt; 3. & lt; / span & gt; & nbsp; nbsp; & nbsp; nbsp; & lt; span & gt; & lt; B & gt; Tong Laixi & lt; / B & gt;, Chen Yibing, Chen linli. 2014. Determination of ultrahigh temperature metapelitic granulite in Altai orogenic belt and its geological significance. ≪ I & gt; scientific bulletins & lt; / I & gt;, & lt; B & gt; 59 & lt; / B & gt;, 1984-1991. & lt; / span & gt; & nbsp;

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≪ span & gt; & lt; B & gt; & nbsp; nbsp; & nbsp; Tong Laixi & lt; / B & gt;, Liu Xiaohan, Wang Yanbin, C.J.L. Wilson, 2012. Metamorphic evolution of argillaceous granulite in the Lasman hills, East Antarctica. ≪ I & gt; Journal of Geology & lt; / I & gt;, & lt; B & gt; 86 & lt; / B & gt;, 1273-1290. & nbsp; & lt; / span & gt;

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&& gt; & lt; / span & gt; & nbsp;

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&Amp; nbsp; & nbsp; & nbsp; nbsp; & lt; B & gt; Tong Laixi & lt; / B & gt;, Liu Xiaohan, Zhang Liansheng, Chen Haihong, Chen Fukun, Wang Yanbin, Ren Liudong, 1998. Ar ar age and its geological significance of amphibolite in garnet amphibolite of Lasman hills, East Antarctica. & lt; I & gt; Polar Research & lt; / I & gt;, & lt; B & gt; 10 & lt; / B & gt;, 161-171

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&Amp; nbsp; & nbsp; & nbsp; & nbsp; nbsp; & lt; B & gt; Tong Laixi & lt; / B & gt;, Liu Xiaohan, Xu Ping, Han Xiuling, Zhao Yue, Ren Liudong, Wang Yanbin, 1996. Discovery of pseudosapphire bearing perilla quartzite and its geological significance in the Lasman hills, East Antarctica. & lt; I & gt; scientific bulletin & lt; / I & gt;, & lt; B & gt; 41 & lt; / B & gt;, 1205-1208. & nbsp;

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&& nbsp; & lt; /span></span>

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&70. & nbsp; & lt; / span & gt; & lt; / span & gt;

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<b></b><span><span><i></i><b></b></span></span>

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<SPAN style="FONT-FAMILY: ; COLOR: #000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration : none;? = & quot; & quot; sans = & quot; & gt; & nbsp; & nbsp; & nbsp; Wang Yanbin, Zhao Yue, Ren Liudong, Chen Tingyu, & lt; span style = & quot; font-family:; COLOR: #000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration : none;? = & quot; & quot; sans = & quot; & quot; & gt; Liu Xiaohan, & lt; / span & gt; & lt; B & gt; Tong Laixi & lt; / B & gt; & lt; span style = & quot; font-family:; color:; background color: transparent & quot; serif?, Tahoma, verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration : none;? = & quot; & quot; sans = & quot; & quot; & gt;, & lt; / span & gt; 1994. Geochemical characteristics and medium pressure metamorphism of mafic granulites in the Rasman hills, East Antarctica. Lt; / span & gt; & lt; I & gt; Antarctic Research & lt; / I & gt; & lt; span style = & quot; font-family:; color: 35; 000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration :none;?="" sans="">, </span><b>6</b><SPAN style="FONT-FAMILY: ; COLOR: #000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px; font- style:normal;font-weight :400;text-d ecoration:none; ?="" sans="">, 1-11. </span>&nbsp;<SPAN style="FONT-FAMILY: ; COLOR: #000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration :none;?="" sans=""> <br />

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<SPAN style="FONT-FAMILY: ; COLOR: #000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration :none;?="" sans=""></span>

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2. Scientific research projects & lt; br / & gt;

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<span>1. &nbsp; <SPAN style="FONT-FAMILY: ; COLOR: #000000; BACKGROUND-COLOR: #ffffff" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration :none;?="" sans=""> General project of NSFC: metamorphic P-T trace and geotectonic background of UHT granulite in the jur islands, East Antarctica. 2020.1-2023.12 & nbsp; Head & lt; / span & gt; & lt; / span & gt;

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≪ span & gt; & nbsp; & nbsp; & nbsp; national key project subproject: P-T trajectory construction of high temperature ultrahigh temperature metamorphic rocks in Emory area, Southeast pole. 2016.1-2020.12 & nbsp; Head & lt; / span & gt;

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≪ span & gt; 2. & nbsp; special topic (b) of the strategic leading project of the Chinese Academy of Sciences: the study of thermal metamorphism history of typical igneous provinces. 2016.1-2020.12 & nbsp; (principal) & lt; / span & gt;

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≪ span & gt; 3. & nbsp; general project of NSFC: metamorphic P-T track and its geotectonic setting of mafic granulite in Rasman hills, East Antarctica. 2014.1-2017.12 & nbsp; Head & lt; / span & gt;

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≪ span & gt; 4. & nbsp; national "973" project: geological and structural background study of large-scale magmatic activity in Permian. 2011.1-2015.12 & nbsp; Project Leader & nbsp; & lt; / span & gt;

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≪ span & gt; general project of National Natural Science Foundation of China: P-T evolution track and Geotectonic Significance of high-grade metamorphic rocks in the Rasman hills, East Antarctica. ≪ / span & gt; & lt; span & gt; 2010.1-2012.12 & nbsp; Head & lt; / span & gt;

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≪ span & gt; 6. & nbsp; geological survey project: South China Vietnam geological study of Pan African tectonics in China and its adjacent areas. 2014.1-2018.12 & nbsp; Head & lt; / span & gt;

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≪ span & gt; 7. & nbsp; general project of National Natural Science Foundation of China: a comprehensive study of tectonics and sedimentation of a new tectonic model in southern Tibet. 2013.1-2016.12 & nbsp; participants & lt; / span & gt; & nbsp;

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3. Academic monograph

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4. Academic conferences and academic exchanges & lt; br / & gt;

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<p>

1991-1992 winter in the eighth Chinese Antarctic scientific expedition (Zhongshan Station)

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1997-1998 participated in the 14th China Antarctic science expedition & lt; span style = & quot; font family:; color: × 000000; background color: transparent & quot; serif?, Tahoma, Verdana, Helvetica; font- size:12px;font-style :normal;font- weight:400;text-decoration : none;? = & quot; & quot; sans = & quot; & quot; & gt; (Zhongshan Station) spend summer & lt; / span & gt;

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<SPAN style="FONT-FAMILY: ; COLOR: #000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration : none;? = & quot; & quot; sans = & quot; & quot; & gt; participated in the Australian Antarctic scientific expedition (Davis Station) for the summer from 1999 to 2000 & lt; / span & gt;

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<SPAN style="FONT-FAMILY: ; COLOR: #000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration : none;? = & quot; & quot; sans = & quot; & quot; & gt; 2010-2011 participated in the 27th China Antarctic scientific expedition & lt; span style = & quot; text-d ecoration:none;font-family :&amp; font- size:12px;font-weight :400;color:#000000;font- style:normal;background-color : transparent; & quot; & gt; (Zhongshan Station) spend summer & lt; / span & gt; & lt; / span & gt;

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<p>

<SPAN style="FONT-FAMILY: ; COLOR: #000000; BACKGROUND-COLOR: transparent" serif?,tahoma,verdana,helvetica;font- size:12px;font-style :normal;font- weight:400;text-decoration : none;? = & quot; & quot; sans = & quot; & quot; & gt; participated in the 32nd China Antarctic scientific expedition (Grove mountain) for summer & lt; / span & gt; 2015-2016;

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<h3>

5. Scientific Research Award

</h3>

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Chinese Science & lt; span style = & quot; font family:; color: ×000000; background color: transparent & quot; serif?, Tahoma, Verdana, Helvetica; font- size:12px;font-style :normal;font- weight:400;text-decoration : none;? = & quot; & quot; sans = & quot; & quot; & gt; Excellent Thesis Award of the dean of the College (ELITA award 1996) & lt; / span & gt;

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<p>

Second prize of 2014 Polar Science excellent thesis of the State Oceanic Administration (2015)

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Tong Laixi

Departments:Petrology & Mineralogy Teaching and Research Office
Title:Professor
Direction:Metamorphic geology, Precambrian Geology and polar geology.
Tel:029-88302312
Email:tonglx@nwu.edu.cn

Location:Home > Faculty > Honor & Title >