Liu Xijun, male, PhD, professor, doctoral supervisor. Leader of the "Key Metal Ore Genesis Theory and Exploration" national university teaching team in the style of Huang Danian, selected as a "Leading Talent in Science and Technology" by the Ministry of Natural Resources, a "Western Talent Introduction" by the Chinese Academy of Sciences, a "Tianchi Talent-Distinguished Expert" in Xinjiang, and a "Distinguished Young Scholar" in Guangxi. Has been in charge of more than 10 national and provincial research projects including Key Programs and General Programs of the National Natural Science Foundation. Currently serves as Executive Vice Dean of the School of Earth Sciences at Guilin University of Technology, Director of the Key Laboratory for Concealed Metallic Ore Exploration in Guangxi, Deputy Director of the "Technical Center for Mine Geological Environment Restoration in Southern Stone Mountainous Areas" under the Ministry of Natural Resources, Leader of the Deep Exploration Talent Pool for Key Mineral Resources in Guangxi, Leader of the First-class Discipline of "Geological Resources and Geological Engineering" in Guangxi, Leader of the First-class Undergraduate Program in Geochemistry nationally, and Leader of the First-class Course in Magmatic Petrology in the autonomous region. Published over 120 papers, won the International WILEY Paper High Citation Award, and the International "Best Research Scholar Award"; awarded as "Chinese Scientist (2018) of the Year" and the "Most Beautiful Science and Technology Figure" by the Guangxi Zhuang Autonomous Region Association for Science and Technology; serves as Guest Editor of the international SCI journal "Frontiers in Earth Science", and Editorial Board member for "South China Geology" and "Journal of Guilin University of Technology"; serves as Committee Member of the Ocean Geochemistry Professional Committee and Youth Work Committee of the Chinese Society for Mineralogy, Petrology and Geochemistry, Committee Member of the Youth Work Committee of the China Nonferrous Metals Society, and Vice Chairman of the Guangxi Geological Society. Also serves as Distinguished Research Fellow at the Xinjiang Mineral Resources Center, Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences, and Doctoral Supervisor at the University of Chinese Academy of Sciences. In terms of teaching, has led one key project and one general project of undergraduate teaching reform in the autonomous region, one Guangxi degree and graduate education reform project, published over 10 teaching reform papers, and published three textbooks; won three first prizes of the Guangxi Zhuang Autonomous Region Teaching Achievement Awards.

Research Interests: Elemental/Isotopic Geochemistry; Mantle Dynamics; Igneous Petrology.

Courses Taught:

• Undergraduate Courses: "Professional English", "Igneous Petrology", "Introduction to Modern Analytical Methods", "Geochemistry", "Modern Instrumental Analysis", "Professional Introduction", and "Analytical Testing Techniques in Geochemistry".

• Graduate Courses: "Advanced Geochemistry", "Earth's Internal Structure and Dynamics", "Modern Testing Methods and Applications", and "Frontiers in Earth Science".

Work Experience:

• November 2023 - Present: Guilin University of Technology, Guilin, Guangxi, China. School of Earth Sciences, Professor/Executive Vice Dean.

• August 2019 - November 2023: Guilin University of Technology, Guilin, Guangxi, China. School of Earth Sciences, Professor/Director of the Ministry of Education Engineering Research Center for Concealed Ore Deposits of Nonferrous and Precious Metals.

• January 2019 - Present: Guangxi Ministry of Natural Resources, Guangxi, China. Southern Stone Mountain Area Mine Environmental Restoration Engineering Technology Innovation Center, Professor/Vice Director.

• January 2019 - Present: Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences, Xinjiang, China. Xinjiang Mineral Resources Research Center, Researcher/Chinese Academy of Sciences "Western Talent Introduction" Special Appointee Expert, Xinjiang "Tianchi Talent".

• November 2018 - Present: Guilin University of Technology, Guilin, Guangxi, China. School of Earth Sciences, Professor/Director of the Guangxi Key Laboratory for Concealed Ore Deposit Exploration.

• January 2017 - July 2019: Guilin University of Technology, Guilin, Guangxi, China. School of Earth Sciences, Professor/Associate Dean.

• January 2016 - January 2017: Scripps Institution of Oceanography, University of California, San Diego, USA. Associate Professor/Visiting Scholar.

• July 2011 - September 2015: Guilin University of Technology, Guilin, Guangxi, China. School of Earth Sciences, Associate Professor/Full-time Teacher, Assistant to the Dean.

Education Background:

• December 2010 - July 2011: Chinese Academy of Sciences, Guangzhou Institute of Geochemistry, China. Major in Geochemistry, Ph.D.

• October 2008 - November 2010: Scripps Institution of Oceanography, University of California, San Diego, USA. Major in Geochemistry, Joint Ph.D. Program sponsored by the Chinese government.

• September 2005 - July 2008: Chinese Academy of Sciences, Guangzhou Institute of Geochemistry, China. Major in Geochemistry, Integrated Master's and Ph.D. Program.

• September 2000 - July 2004: Guilin Institute of Technology, China. Major in Resources and Environmental Engineering, Bachelor's degree.

  
  

Awards and Honors:

• August 2023: National Higher Education "Huang Danian-style Teacher Team" in Key Metal Ore-forming Theory and Exploration Technology.

• June 2023: Guangxi Zhuang Autonomous Region Higher Education "Huang Danian-style Teacher Team" in Key Metal Ore-forming Theory and Exploration Technology.

• November 2023: Ministry of Natural Resources "Leading Talent in Science and Technology".

• January 2019: Guangxi Excellent Youth Scholar.

• September 2019: "Advanced Individual Award" for Talent in Deep Exploration of Key Mineral Resources in Guangxi.

• February 2023: Special Appointee Expert of "Tianchi Talent" in Xinjiang.

• May 2023: International Outstanding Research and Citation Award - Best Research Scholar Award.

• 2020-2021: International High Citation Paper Award - WILEY.

• 2021-2022: International High Citation Paper Award - WILEY.

• June 2019: Science China Annual Figure (2018).

• December 2023: AI Teaching Innovation Award in Petrology and Petrology.

• June 2022: Provincial-level First-Class Course Award in Petrology and Petrology.

• December 2019: "Model Party Branch" at the National Level.

• June 2021: Advanced Grassroots Party Organization of the Education Commission of the Guangxi Zhuang Autonomous Region Party Committee.

• January 2024: First Prize in Teaching Achievement Award at the Autonomous Region Level in Higher Education in Guangxi in 2024.

• December 2021: First Prize in Teaching Achievement Award at the Autonomous Region Level in Higher Education in Guangxi in 2021.

• December 2019: First Prize in Teaching Achievement Award at the Autonomous Region Level in Higher Education in Guangxi in 2019.

• July 2019: Special Prize in Higher Education Teaching Achievement Award at Guilin University of Technology.

• July 2019: Third Prize in Higher Education Teaching Achievement Award at Guilin University of Technology.

• July 2019: Honorary Title of "Excellent Communist Party Member" at Guilin University of Technology.

• January 2020: Honorary Title of "Excellent Young Graduate Supervisor" at Guilin University of Technology.

• December 2015: Honorary Title of "Excellent Supervisor" at Guilin University of Technology.

• July 2022: Guiding Teacher of One Hundred Outstanding Undergraduate Theses at Guilin University of Technology in 2022.

• September 2021: Guiding Teacher of One Hundred Outstanding Undergraduate Theses at Guilin University of Technology in 2021.

• September 2018: Guiding Teacher of One Hundred Outstanding Undergraduate Theses at Guilin University of Technology in 2018.

• September 2015: Guiding Teacher of One Hundred Outstanding Undergraduate Theses at Guilin University of Technology in 2015.

Leading Research Projects:

• Key Project of the Major Research Plan of the National Natural Science Foundation of China: Evolution of Mantle DUPAL Composition and Northward Convergence Mechanism of Terranes in the Early-Late Paleozoic, 2021-2024.

• "Western Light" Talent Program of the Chinese Academy of Sciences, "Western Talent Introduction" Project: Evolution of Crustal Mantle in the Central Asian Orogenic Belt, 2019-2021.

• General Program of the National Natural Science Foundation of China: Early Paleozoic Pacific-type Mantle Beneath the Paleo-Asian Ocean: Constraints from Sr-Nd-Pb-Hf Isotopes of Northern Xinjiang Ophiolites, 2018-2021.

• Youth Fund Project of the National Natural Science Foundation of China: DUPAL Anomaly Peak in the Late Paleozoic: Constraints from Sr-Nd-Pb-Os Isotopes of Paleo-Asian Ocean Ophiolites, 2014-2016.

• Regional Fund Project of the National Natural Science Foundation of China: Mechanism and Metallogenic Background of Late Paleozoic Basic Magmatism in the Western Margin of South China, 2015-2018.

• Guangxi Natural Science Foundation Outstanding Youth Fund: Petrogeochemistry, 2019-2022.

• Guangxi Science and Technology Innovation Base Construction Project: Construction of Guangxi Strategic Critical Mineral Resources Metallogenic and Exploration Technology Innovation Base, 2021-2024.

• Guangxi Science Research and Technology Development Plan Project: Research and Development of High-Precision Pb Isotope Testing Technology, 2018-2024.

• Youth Fund Project of Guangxi Natural Science Foundation: Testing Methods for Platinum Group Elements and Re-Os Isotopes and Their Application in Basic Rock-type Gold Deposits in Western Guangxi, 2014-2016.

• Guangxi Natural Science Foundation Returning Home Fund Project: Study on the Tectonic-Magmatic-Mantle Attributes and Gold Metallogenic Background in the Western Guangxi Region, 2012-2015.

Leading Educational Reform Projects:

• May 2017 - April 2020: Construction and Practice of Experimental Teaching System for Resource Exploration Engineering Under the Background of Engineering Education Accreditation.

• April 2021 - April 2023: Research on the Construction of Graduate Tutor Team Based on Innovative Talent Cultivation.

• June 2021 - June 2023: Research and Practice on the Construction of First-Class Courses Based on First-Class Majors, Taking "Petrology and Petrology" Course as an Example.

• June 2022 - Present: National First-Class Undergraduate Major in "Geochemistry".

• October 2021 - December 2025: Construction of First-Class Disciplines in Guangxi: Geological Resources and Geological Engineering.

Representative Research Papers

First and Corresponding Author Papers

1. Xiao, Y., Liu, X.J*, Xiao, W.J., Gong, X.H., Wu, H., Song, Y.J., Zhang, Z.G., Liu, P.D., 2024. Hot subduction in the southern Paleo-Asian Ocean: Insights from clinopyroxene chemistry and Sr–Nd–Hf–Pb isotopes of Carboniferous volcanics in West Junggar. Geoscience Frontiers 15, 101716.

2. Liu, X.J., Xiao, W., Ao, S., Mao, Q., Wan, B., 2024. Editorial: Paleo-Asian and Tethyan domains: magmatism, tectonics, mineralization, and geodynamics. Frontiers in Earth Science 12.

3. Liu, L., Xiao, W.J*, Liu, X.J*, Zhao, Z., Wang, Y., 2024. Early Triassic S-Type Granitoids in the Qinzhou Bay Area, South China: Petrogenesis and Tectonic Implications. Minerals 14, 22.

4. Liu, X.J., Xu, J.F., Xiao, W.J., Liu, P.D., 2023. Origin of the DUPAL anomaly in the Tethyan mantle domain and its geodynamic significance. SCIENCE CHINA Earth Sciences 66, 2712-2727.

5. Liu, P.D, Liu, X.J*, Xiao, W.J, Zhang, Z.G, Xiao, Y., Song, Y.J. and Wu, H., 2023. Multiple ridge subduction processes in the southern Altaids: Implications from clinopyroxene chemistry and Sr–Nd–Hf isotopes of late carboniferous Nb-enriched, magnesian diorite-andesites in West Junggar, NW China. Chemical Geology, 635: 121600.

6. Huang, W.M., Liu, X.J*, Liu, L., Li, Z.L., Liu, X. and Wu, H. (2023) Early Triassic roll-back of subducted Paleo-Tethys oceanic lithosphere: Insights from A₂-type silicic igneous rocks in the Pingxiang area, southwest China. Geosphere.

7. Song, Y., Liu, X.J*, Xiao, W.J, Gong, X.-H., Liu, X., Xiao, Y., Zhang, Z., Liu, P., 2023. Tectonic evolution of circum-Rodinia subduction: Evidence from Neoproterozoic A-type granitic magmatism in the Central Tianshan Block, northwest China. Precambrian Research 387, 106976.

8. Song, Y., Liu, X.J*, Xiao, Y., Liu, X., Tian, H., 2023. Clinopyroxene Compositions of E-MORB-Type Gabbro from Bingdaban Ophiolites in Central Tianshan, NW China: Insights into the Evolution of the Magmatic System and Geodynamic Setting. Minerals 13, 1232.

9. Tian, H., Liu, X.J*, Wu, H., Li, D., Liu, X., Song, Q., Li, Z., Liu, P., Hu, R. and Yang, Q. (2023) Development of a cambrian back-arc basin in the North Qilian orogenic belt: New constraints from gabbros in Yushigou ophiolite. Frontiers in Earth Science 11.

10. Li, P., Liu, X.J*, Liu, L., 2023. Petrogenesis of Late Cretaceous Muscovite-Bearing Peraluminous Granites in the Youjiang Basin, South China Block: Implications for Tin Mineralization. Minerals 13, 1206.

11. Liu, X., Liu, X.J*, Hu, R.-G., Li, Z.-L., Wei, Y.-L., Shi, Y., Wang, B.-H., Liu, L., Qin, X.-Z., Liao, S., 2022. Late Permian A-type granites in Ma'andi in the Jinping area, southwestern China: Petrogenesis and implications for plume–slab interaction. Lithos 430-431, 106878.

12. Liu, X., Liu, X.J*, Fu, W., Shi, Y., Guo, J.-L., Hu, R.-G., Zhao, C., Feng, M., Li, Z.-L., Qin, X., 2022. Petrogenesis of Paleozoic–Early Mesozoic Granites and Pegmatites in the Yuechengling Pluton of South China. Lithosphere 2022, 8377620.

13. Lei, H., Shen, X., Liu, X.J*, Tian, Y., Yuan, X., Liu, J., Jia, Y., Tang, X., Wang, S., 2022. Oligocene-early Miocene rapid exhumation along the Xianshuihe fault system: Implications for the growth of the Southeastern Tibetan Plateau. Journal of Asian Earth Sciences 240, 105443.

14. Yao, Y., Liu, X.J*, Zhang, Z., Li, Z., Hu, Y., 2022. Spatiotemporal variations of chemical weathering intensity in large drainage basin and its potential climatic implications: A case study from the Yangtze River Valley. Journal of Geochemical Exploration 243, 107093.

15. Yu, H.X, Zhang, Y. H, Liu, X.J*, Hong, L., Zhang, L., Xu, J., Ren, Z., Deng, F., 2022. Improved in situ analysis of lead isotopes in low-Pb melt inclusions using laser ablation–multi-collector–inductively coupled plasma–mass spectrometry. Rapid Communications in Mass Spectrometry 36, e9383.

16. Song, Y., Liu, X.J*, Xiao, W., Zhang, Z., Liu, P., Xiao, Y., Li, R., Wang, B., Liu, L., Hu, R., 2022. Neoproterozoic I-type granites in the Central Tianshan Block (NW China): geochronology, geochemistry, and tectonic implications. Journal of Arid Land 14, 82-101.

17. Deng, F.L., Liu, X.J*, Yu, H.X., Yao, Y., Zhang, Z.G., Lie, W.W., Li, R., 2022. Devonian–Carboniferous Hangenberg Crisis in South China: Variations in Trace Elements, Strontium and Carbon Isotope Chemostratigraphy in the Nanbiancun Carbonate Section. Acta Geologica Sinica - English Edition 96, 1166-1180.

18. 刘希军, 许继峰, 肖文交, 刘鹏德, 2023. 特提斯地幔域DUPAL异常成因及地球动力学意义. 中国科学:地球科学 53, 2750-2766.

19. 肖尧, 刘希军*, 张治国, 宋宇嘉, 刘鹏德, 田昊 and 宋琦 (2023) 准噶尔洋洋内弧岩浆作用:西准噶尔百口泉早石炭世火山岩地球化学及Sr-Nd-Hf同位素研究. 大地构造与成矿学 47, 214~232..

20. 韩怡颖, 刘希军*, 王葆华, 时毓, 李政林, 刘潇, 邓发亮, 2023. 广西南丹石炭系黄龙组下段碳酸盐岩地球化学特征及其古沉积环境意义. 地球化学 52, 637-648.

21. 李晓楠, 刘希军*，贾志强 (2023) 基于DEM的华南离子吸附型稀土矿床地形地貌特征分析. 华南地质 39, 376-386.

22. 石钰祥, 刘希军*, 李政林, 刘潇, 赵兵, 覃显著, 张一尘, 黄雯敏, 苏悦, 2023. 桂西大化辉绿岩岩石成因及对区域构造演化的指示. 华南地质 39, 617-629.

23. 赵兵, 刘希军*, 李政林, 时毓, 招传, 覃显著, 2022. 桂西马雄辉绿岩的Sr-Nd-Hf同位素和铂族元素特征：对岩浆演化和硫化物成矿作用的启示. 岩石学报 38, 2848-2864.

24. 孙懿, 石学法*, 鄢全树, 刘希军*, 于淼, 黄牧, 毕东杰, 李佳, 朱爱美, 高晶晶, 汪虹敏, 张兆祺, 2022. 中印度洋海盆富稀土沉积地球化学特征及富集机制研究. 海洋学报 44, 42-62.

25. 李响, 叶俊, 刘希军*, 石学法*, 李传顺, 闫仕娟, 2022. 大西洋中脊赤狐热液区热液产物矿物学特征及其地质意义. 海洋地质与第四纪地质 42, 46-58.

26. 黄雯敏, 刘希军*, 李政林, 韦艳玲, 郭静涟, 韩怡颖, 赵兵, 2022. 桂西南古特提斯洋演化：来自凭祥地区花岗岩的证据. 桂林理工大学学报 42, 281-294.

27. Liu X.J., Xu, J.F., Castillo, P.R., Xiao, W. J, Shi, Y., Zhang, Z., Wang, X.-C., Ao, S., Wang, B., Hu, R., Shi, X., Yu, H., Liu, P., Song, Y., 2021. Long-lived low Th/U Pacific-type isotopic mantle domain: Constraints from Nd and Pb isotopes of the Paleo-Asian Ocean mantle. Earth and Planetary Science Letters 567, 117006.

28. Zhang, Z., Liu X.J*, Xiao, W.J, Xu, J.F., Shi, Y., Gong, X., Hu, R., Liu, P., Song, Y., Xiao, Y., Zhang, Z., Li, R., Li, D., 2021. Geochemistry and Sr–Nd–Hf–Pb isotope systematics of late Carboniferous sanukitoids in northern West Junggar, NW China: Implications for initiation of ridge-subduction. Gondwana Research 99, 204-218.

29. Liu, P.D, Liu X.J*, Xiao, W.J, Zhang, Z., Song, Y., Xiao, Y., Liu, L., Hu, R., Wang, B., 2021. Geochronology, geochemistry, and Sr-Nd isotopes of Early Carboniferous magmatism in southern West Junggar, northwestern China: Implications for Junggar oceanic plate subduction. Journal of Arid Land, 13, 1163-1182.

30. Tang, Y.L., Shi, Y., Hu, X.-M., Liu X.J*, Huang, C.-W., 2021. Petrogenesis of Early Paleozoic I-type granitoids in the Wuyi-Yunkai Orogen, South China: Implications for the tectono-magmatic evolution of the Cathaysia Block. Journal of Asian Earth Sciences 220, 104906.

31. Liu X.J., Zhang, Z.G., Xu, J.F., Xiao, W.J., Shi, Y., Gong, X.H., Li, R. 2020. The youngest Permian Ocean in Central Asian Orogenic Belt: Evidence from Geochronology and Geochemistry of Bingdaban Ophiolitic Mélange in Central Tianshan, northwestern China. Geological Journal, 55, 2062-2079.

32. Shi, Y., Huang, QW., Liu, XJ*, Krapež, B., Yu, J.H. and Bai, Z.A., 2018. Provenance and tectonic setting of the supra-crustal succession of the Qinling Complex: Implications for the tectonic affinity of the North Qinling Belt, Central China. Journal of Asian Earth Sciences, 158: 112-139.

33. Liu XJ., Wenjiao Xiao, Jifeng Xu, Paterno R Castillo, Yu Shi, 2017, Geochemical signature and rock associations of ocean ridge-subduction: evidence from the Karamaili Paleo-Asian ophiolite in east Junggar, NW China, Gondwana Research, 48, 34-49.

34. Liu XJ，Liang Qiongdan，Li Zhenglin，Castillo PR，Shi Yu, Xu Jifeng, Huang Xiangling, Liao Shuai, Huang Wenlong, Wu Weinan, 2017, Origin of Permian extremely high Ti/Y mafic lavas and dykes from Western Guangxi, SW China: Implications for the Emeishan mantle plume magmatism, Journal of Asian Earth Sciences, 141: 97-111.

35. Liu XJ., Jifeng Xu, Paterno R Castillo, Wenjiao Xiao, Yu Shi, huqing Wang, Qinye Hou, Zuohai Feng, 2015，The boundary between the Central Asian Orogenic belt and Tethyan tectonic domain deduced from Pb isotopic data. Journal of Asian Earth Sciences 113, Part 1, 7-15.

36. Liu XJ., Jifeng Xu, Paterno R Castillo, Wenjiao Xiao, Yu Shi, Zuohai Feng, Lin Guo, 2014，The Dupal isotopic anomaly in the southern Paleo-Asian Ocean: Nd-Pb isotope evidence from ophiolites in Northwest China, Lithos, 189：185-200.

37. Liu, XJ., Liao S, 2012，High Precision Pb Isotope Determination by Using 207Pb-204Pb Double Spike Revisited，Advanced Materials Research, 518，1669-1676.

38. 刘希军，王桂琴，Castillo PR，许继峰，黄丰，余红霞，陈玲，2013，高精度Pb同位素207Pb-204Pb双稀释剂TIMS测试方法，地球化学, 42（2）: 103-115.

39. 刘希军， 许继峰，王树庆，侯青叶，白正华，雷敏，2009, 新疆西准噶尔达拉布特蛇绿岩性E-MORB型镁铁质岩的地球化学和年代学及其地质意义. 岩石学报, 25(6): 1373-1389.

40. 刘希军, 许继峰, 侯青叶, 白正华, 雷敏, 2007, 新疆东准噶尔克拉麦里蛇绿岩地球化学：洋脊俯冲的产物. 岩石学报,23(7): 1591-1602.

41. 雷海佳, 沈晓明, 刘希军*, 唐秀党, 2021. LA-ICP-MS锆石U-Pb定年实验流程的建立及其在滇西剑川正长岩锆石年代学中的应用. 大地构造与成矿学45, 822-838.

42. 李政林, 刘希军*, 肖文交, 鲍厚银, 时毓, 刘磊, 廖帅, 覃显著, 2019. 桂西南凭祥火山岩年代学、地球化学及Hf同位素研究——对古特提斯洋最晚北向俯冲事件的启示. 地质力学学报 25, 932-946.

43. 陈雪峰, 刘希军*, 许继峰, 时毓, 李政林, 梁琼丹, 黄文龙, 廖帅 and 吴伟男, 2016. 桂西那坡基性岩地球化学:峨眉山地幔柱与古特提斯俯冲相互作用的证据. 大地构造与成矿学(03): 531-548.

44. 黄文龙, 刘希军*, 时毓, 许继峰, 廖帅, 郭琳, 吴伟男, 李政林, 梁琼丹, 2015. 桂西巴马地区极高 Ti/Y 值基性岩地球化学特征--来自峨眉山地幔柱高 Ti 母岩浆? 地质通报34, 474-486.

45. 廖帅, 刘希军*, 覃显著, 李政林, 张治国, 丁姗姗, 文雅倩 (2020) 中国境内基性岩研究概况、热点及趋势——基于Web of Science的知识图谱分析. 桂林理工大学学报:1-12

46. 谭震江, 刘希军*, 张治国, 李锐, 刘鹏德, 肖尧, 宋宇嘉, 张兆祺 (2020) 新疆西准噶尔谢米斯台山早泥盆世火山岩年代学、地球化学特征及地质意义. 矿产与地质 34(02):278-286

47. 招传，刘希军*，时毓，刘磊，李正林，潘罗忠，胡荣国，王葆华，张治国，丁珊珊，2018，古特提斯与峨眉山地幔柱相互作用：来自桂西那坡地区基性岩铂族元素地球化学研究，桂林理工大学学报，38(4): 680-687

48. 吕楠，刘希军*，余红霞，许继峰，李政林，丁姗姗，文雅倩，廖帅，2018，MPI-DING玻璃标样与大洋中脊火山玻璃的主量元素均一性研究，桂林理工大学学报，38(4): 688-702

49. 邓发亮, 姚野, 刘希军*, 李政林, 张付胜, 时毓, 付伟, 廖帅, 2017. 桂西隆林-西林地区辉绿岩成因:峨眉山地幔柱外带岩浆作用的启示. 桂林理工大学学报(02): 231-244.

50. 吴伟男，刘希军*，Paterno R. Castillo，李政林，梁琼丹，姚野，廖帅, 2015. 太平洋洋中脊火山玻璃主量元素地球化学特征. 桂林理工大学学报，35（4）606-615

51. 李政林，刘希军*，许继峰, 康志强，时毓，黄文龙，陈雪峰， 吴伟男， 梁琼丹，姚野. 2015，右江盆地基性岩的地球化学演化特征及其区域构造意义，桂林理工大学学报，35（4）547-554

52. 宋勇思，刘希军*，张浩，黄国疏， 2015，峨眉山大火成岩省内带-外带地幔潜能温度对比. 桂林理工大学学报，35（suppl）1-5. 

Co-authored Papers

1. Tang, G.J., Wyman, D.A., Dan, W., Wang, Q., Liu, X.J., Yang, Y.N., Gadoev, M., Oimahmadov, I., 2024. Protracted and Progressive Crustal Melting during Continental Collision in the Pamir and Plateau Growth. Journal of Petrology 65.

2. Wu, H., Liu, H., Wang, Y., Liu, X.J, Zeng, Q., Wang, P., 2024. Late Jurassic oceanic plateau subduction in the Bangong–Nujiang Tethyan Ocean of Northern Tibet. Geoscience Frontiers, 101813.

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63. 王葆华, 胡荣国, 司建涛, 赵义来, 刘希军, 李赛赛, 沙培哲, 2021. 广西大厂矿田高峰锡多金属矿床花岗斑岩白云母化学特征及其地质意义. 桂林理工大学学报 41, 471-483.

64. 唐远兰, 时毓, 王永强, 孙艺容, 刘希军, 2021. 桂中都安-马山煌斑岩成因及其构造意义. 地球科学 46, 2083-2116.

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66. 方贵聪, 王登红, 冯佐海, 许成, 杨植根, 申昌健, 童启荃, 杨明, 孙杰, 付伟, 康志强, 刘希军, 陈远荣, 杨锋, 刘奕志, 2021. 赣南盘古山钨铋矿床发现扇状成矿现象. 地质论评 67, 1780-1784.

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75. 王新宇, 吴祥珂, 何川, 时毓, 刘希军, 付伟, 王酉臣, 2019. 桂中都安钾镁煌斑岩金云母~(40)Ar/~(39)Ar年龄及其构造意义. 地质通报 38, 680-688.

76. 柏治安, 时毓, 刘希军, 黄倩雯, 覃康乐, 2019. 南秦岭封子山岩体的年代学、地球化学、Hf同位素特征及其地质意义. 地球科学 44, 1186-1209.

77. 张治国, 刘磊, 刘希军, 胡荣国, 龚小晗, 谭震江, 王梦超, 李锐, 2019. 新疆西准噶尔哈姆图斯火山岩年代学、地球化学特征及地质意义. 桂林理工大学学报 39, 258-269.

78. 文雅倩, 刘希军, 李政林, 许继峰, 王葆华, 丁姗姗, 胡荣国, 潘罗忠, 戴昱, 2019. 右江盆地构造属性及地幔特征:来自凭祥基性岩地球化学及Sr-Nd同位素的证据. 桂林理工大学学报 39, 839-846.

79. 时毓, 杨金磊, 李响, 王新宇, 吴祥珂, 刘希军, 三元合, 张晓晨, 2019. 桂东北平乐县沙子煌斑岩LA-ICP-MS锆石U-Pb年龄及Hf同位素组成. 桂林理工大学学报 39, 13-25.

80. 时毓, 三元合, 郭智超, 刘希军, 王新宇, 吴祥珂, 冯佐海, 杨金磊, 张晓晨, 2019. 桂东北富川鲁洞辉绿玢岩LA-ICP-MS锆石U-Pb年龄及Hf同位素组成. 桂林理工大学学报 39, 291-300.

81. 王梦超, 刘磊, 刘希军, 王葆华, 龚小晗, 张治国, 谭震江, 2019. 中天山南缘乌瓦门地区蛇绿混杂岩中前寒武花岗质岩块年代的厘定及其构造意义. 矿产与地质 33, 296-303.

82. 黄倩雯，时毓，刘明辉，刘希军，柏治安，覃康乐．2018.南秦岭沙河湾和曹坪花岗岩体年代学、地球化学特征及其构造意义．地球科学，43, 81-102.

83. 马莲花, 蔡永丰, 刘希军, 许继峰, 周云, 苏小倩, 2018. 云南个旧卡房锡矿田花岗岩黑云母矿物化学特征及其成岩成矿意义. 高校地质学报 24, 692-701.

84. 袁永海, 杨锋, 余红霞, 刘希军, 许继峰, 2018. 微波消解-多接收电感耦合等离子体质谱高精度测定锶钕同位素组成. 岩矿测试 37, 356-363.

85. 呼建雄，陈建林，姚 胜，曾云川，雷 鸣，熊秋伟，刘希军，2018，冈底斯弧西部林子宗群年波组火山岩锆石U-Pb年代学、岩石成因及其指示， 地球化学，47(6)：699-711

86. 郭智超, 时毓, 王新宇, 付伟, 刘希军, 覃康乐, 刘磊, 2018. 桂北罗城垒洞煌斑岩LA-ICP-MS锆石U-Pb定年及其地质意义. 桂林理工大学学报 38, 208-216.

87. 裴小利, 时毓, 梁斌, 刘希军, 丁海红, 朱昱桦. 2016. 北秦岭地体秦岭岩群（杂岩）中伟晶 岩脉内蜕晶质化锆石成因. 桂林理工大学学报，35 (4) : 675-685.

88. 时毓, 于津海, 裴小利, 刘希军, 朱昱桦. 2014. 秦岭造山带中秦岭杂岩的早古生代幔源岩浆作用. 桂林理工大学学报，34(2): 207-217.

89. 时毓, 于津海, 杨启军, 刘希军, 冯佐海, 朱昱桦, 2014. 小秦岭地区太华群锆石U-Pb年龄及华北克拉通南缘地壳演化. 地球科学与环境学报 36, 218-229.

90. 陈宏毅, 缪秉魁, 刘希军, 谢兰芳, 夏志鹏, 陈丽菲, 2013. 西宁陨石的岩石学特征及其类型划分. 极地研究 25, 394-402.

91. 王树庆，许继峰，刘希军，侯青叶，2008, 内蒙朝克山蛇绿岩地球化学：洋内弧后盆地的产物？ 岩石学报, 2(12): 2869-2879.

92. 雷敏, 赵志丹, 侯青叶, 张宏飞, 许继峰, 陈岳龙, 张本仁, 刘希军, 2008, 新疆达拉特蛇绿岩带玄武岩地球化学特征:古亚洲洋与特提斯洋的对比. 岩石学报, 24(4): 661-672.

Representative Papers on Educational Reform:

1. 刘希军, 王葆华, 2023. 面向研究生创新能力培养的研究生导师团队构建研究. 创新创业理论研究与实践 6, 91-93.

2. 王葆华, 刘希军, 陶剑飞, 2023. 高校二级学院院长主体意识建设的探讨. 大学, 22-25.
   

3. 刘希军, 时毓, 王葆华, 2015. 浅谈地质学类本科生的培养. 教育教学论坛, 43-44.

4. 刘希军, 王葆华, 2023. 面向研究生创新能力培养的研究生导师团队构建研究. 创新创业理论研究与实践 6, 91-93.

5. 刘希军, 王葆华, 陈宏毅, 冯佐海, 2016. 高校数字化地质博物馆建设的思考与构想. 实验室科学 19, 227-232.

6. 刘希军, 王葆华, 康志强, 付伟, 2020. 工程教育专业认证背景下高校实验教学体系的构建与实践——以资源勘查工程专业为例. 教育教学论坛, 87-88.