General

Song Guoxue,Associate professor

Email: sgx@ucas.ac.cn
Address: University of Chinese Academy of Sciences,Huaibei Town, Huairou District, Beijing, P.R.China
Postcode: 101408


Research Areas

Hydrothermal deposits and mineral genesis

Education

09/2005 - 06/2010
Combined master-PhD program
Institute of Geology and Geophysics, Chinese Academy of Sciences, No. 19, Beitucheng Western Road, Chaoyang District, 100029, Beijing, China.
Degree: Ph.D., Major in Mineralogy, Petrology, Economic Geology
Supervisor: Professor Kezhang Qin (Email: kzq@mail.iggcas.ac.cn)
Thesis Title: Research on Magmatism-Mineralization and Metallogenic system of skarn-porphyry type W-Mo deposits in Chizhou area, the Middle-Lower Yangtze Valley, China.

09/1999 – 07/2003
School of the Earth Sciences and Resources, China University of Geosciences, Beijing, China.
Supervisor: Professor Shaobin Guo
Major: Geology
Research Field: Formation of oil bearing reservoir of Es1 and Es2 stages in Nanpu sag in Jidong Oil field, China.

Experience

03/2014 -  
College of Earth and plantry Science, University of Chinese Academy of Sciences, China.
Title: Associate professor

Research Field: Porphyry-skarn type W-Mo/Mo/Cu-Mo deposits and epithermal Au-Ag deposits; Research on genetic mineralogy, minerals including scheelite, molybdenite, garnet, pyrite and apatite, etc.


03/2016 - 04/2017

University of Adelaide, Australia.
Title: Visiting scholar

Research Field: Porphyry-skarn type W-Mo/Mo/Cu-Mo deposits and epithermal Au-Ag deposits; Research on genetic mineralogy, minerals including scheelite, molybdenite, garnet, pyrite and apatite, etc.


06/2010 - 03/2014
Key Laboratory of Mineral Resources, Institute of Geology and Geophysics, Chinese Academy of Sciences, No. 19, Beitucheng Western Road, Chaoyang District, 100029, Beijing, China.
Title: Postdoctoral Researcher
Supervisor: Professor Kezhang Qin (Email: kzq@mail.iggcas.ac.cn) and Xianhua Li (Email: lixh@gig.ac.cn)
Research Field: Porphyry-skarn type W-Mo/Mo/ deposits along the Middle–Lower Yangtze Valley, SE China; Mineral chemistry of minerals from Skarn and Porphyry type ore deposits.

Work Experience

  1. Evaluation of Metallogenic Types and Metallogenic Potential of Galihe Copper Mine in Pu'er, Yunnan (2023, Jinli Smelting)

  2. Evaluation of rare earth metallogenic potential of pegmatized granite in Anhui (2022, a private enterprise in Anhui)

  3. Evaluation of Rare Earth Metallogenic Potential of a Carbonate Rock Mass in Ulanqab, Inner Mongolia (2022)

  4. Survey and Sampling of Nihe Iron Mine in Lujiang, Anhui (2022, Minmetals)

  5. Survey and sampling of Chifeng perlite deposit, Inner Mongolia (2022)

  6. Genesis and Sampling of the Liqingdi Lead Zinc Deposit in Ulanqab, Inner Mongolia (2019-2023, Bohai Mining)

  7. Exploration and Sampling of a Gold Mine in Hami, Xinjiang (2019, Dietai Mining)

  8. Evaluation of Deep Mineralization Potential of the Debao Copper Tin Mine in Guangxi (2019, Ph.D. Tour in Guangxi)

  9. Joint Survey of Climax and Henderson Molybdenum Mines and Manto Lead Zinc Silver Mines in Colorado, USA (2018, SEG)

  10. Exploration and Sampling of Xingjiashan Tungsten Molybdenum Mine in Jiaodong, Shandong Province (2018, Shandong Academy of Geological Sciences)

  11. Survey and Sampling of Qibaoshan Copper Mine and Peripheral Mining Sites in Shandong Province (2018, Shandong Academy of Geological Sciences)

  12. Exploration and Sampling of Erdaogou Lead Zinc Mine at the Heilongjiang Inner Mongolia Border (2017)

  13. Exploration and Sampling of Heilongjiang Liujiu Copper Deposit (2016-2017, Liujiu Copper Mine)

  14. Joint Investigation of Copper, Lead Zinc, Gold, and Rare Earth Mineralization in the Moonta Wallaroo Region of the Olympic Dam Deposit in Adelaide, Australia (2016)

  15. Evaluation of Metallogenic Potential of Quanshenggou and Valarixi Gold Deposits in Huma County, Heilongjiang Province (2016-2019, Report Compiled, Heilongjiang Hongchuan Mining)

  16. Joint Geological Survey of the Chukicamata Copper Mine and Escondida Ore Belt in Chile (2015, Major Project in Central Asia)

  17. Field Survey and Sampling of the Xitian Tungsten Tin Mine in Hunan Province (2015)

  18. Origin and Deep Potential Evaluation of Xingyegou Molybdenum Deposit in Inner Mongolia (2014, a Private Enterprise in Inner Mongolia)

  19. Survey and Sampling of the Guanniaohe Tungsten Mine in Heihe, Heilongjiang Province (2014)

  20. Exploration and Sampling of the Yezhugou Molybdenum Mine in Heihe, Heilongjiang Province (2014)

  21. Evaluation of Metallogenic Potential of Heihe Metallurgical and Wudaogou Molybdenum Ores in Heilongjiang Province (2013-2017, Report Compiled, Heilongjiang Heilong Mining)

  22. Evaluation of Deep Mineralization Potential of Huhe Gold Antimony Deposit in Heihezhuang, Heilongjiang Province (2013-2017, Report Compiled, Heilongjiang Heilong Mining)

  23. Evaluation of deep metallogenic potential of copper deposits at Mantou Mountain Lead Zinc Silver Ore Point, Heihe, Heilongjiang Province (2013-2017, report preparation, Heilong Mining, Heilongjiang Province)

  24. Exploration of Cuihongshan Iron Mine, Sandaowanzi Gold Mine, Tuanjiegou Gold Mine, and Dong'an Gold Mine in Heilongjiang Province (2013)

  25. Joint Inspection of Heilongjiang Daheishan Molybdenum Mine and Luming Molybdenum Mine (2012)

  26. Evaluation of Deep Mineralization Potential of Sankuanggou Copper Mine in Heihe, Heilongjiang (2013-2017, Report Compiled, Heilong Mining, Heilongjiang)

  27. Mapping and Sampling of the Open Pit of Duobaoshan Copper Mine in Heihe, Heilongjiang Province (2013-2015, Heilong Mining and Zijin Mining)

  28. Evaluation of Deep Mineralization Potential in the Tongshan Zhengguang Copper and Gold Mining Area of Heihe, Heilongjiang (2013-2017, Report Compiled, Heilongjiang Heilong Mining)

  29. Evaluation of Metallogenic Potential in the Peripheral Area of Chalukou in the Greater Xing'an Mountains of Heilongjiang Province (2011-2013, Heilongjiang Nonferrous 706)

  30. Comprehensive Study on the Genesis of Chalukou Molybdenum Deposit in the Daxing'anling Region of Heilongjiang Province (2011-2014, Exploration Report, Jinxin Mining+Yunnan Zinc Germanium)

  31. Field Survey and Evaluation of a Tungsten and Molybdenum Mine in the Northeast Margin of Myanmar (2011, Oral Report, Central South Metallurgy+Private Enterprise)

  32. Evaluation of Metallogenic Potential of a Sedimentary Manganese Deposit in Qinzhou, Guangxi (2010, a Private Enterprise in Shandong)

  33. Research on Mesozoic Magmatism and Mineralization in the Chizhou Area of Anhui Province (2010-2013, Postdoctoral Research)

  34. Field Survey and Evaluation of a Lead Zinc Mine in Daliangshan, Sichuan (2008, a private enterprise in Zhejiang)

  35. Joint Inspection of Shiba Lead Zinc Mine and Chengmenshan Copper Mine in Jiujiang District, Jiangxi Province (2008)

  36. Joint Inspection of Jiaochong Gold Mine and Dongguashan Copper Mine in Tongling District, Anhui Province (2008)

  37. Investigation of the Yangtze Copper Mine and the Tuodaoling Gold Mine in the Chizhou Area of Anhui Province (2008, Zhongke Yuanhang)

  38. Comprehensive Geological and Geophysical Exploration of Meishan Iron Mine in Chizhou Prefecture, Anhui Province (Report prepared from 2008 to 2009, China Science and Technology Yuanhang)

  39. Evaluation of tungsten and molybdenum mineralization potential in the periphery of the Gaojiabang tungsten mine in Chizhou region, Anhui Province (Report prepared from 2007 to 2011, China Science and Technology Yuanhang)

  40. Study on the Genesis of Gaojiabang Tungsten Deposit in Chizhou District, Anhui Province (2009-2020, Typical Deposit Study)

  41. A Study on the Genesis of the Matou Molybdenum Deposit in the Chizhou Area of Anhui Province (2007-2010 Thesis Practice, Graduation Thesis Content)

  42. A Study on the Genesis of the Baizhangyan Tungsten Molybdenum Deposit in the Chizhou Area of Anhui Province (2008 2009 Thesis Practice, Graduation Thesis Content)

  43. Investigation of Liufengshan Copper Mine in Chizhou District, Anhui Province (2008)

  44. Evaluation of Copper and Gold Mineralization Potential in the Peripheral Area of Niubei Ridge in Chizhou, Anhui Province (2008-2008 Paper Practice, Report Compilation, China Science and Technology Yuanhang)

  45. Deep Mineralization Conditions and Mineralization Potential of Jitoushan Tungsten Molybdenum Mine in Chizhou District, Anhui Province (2007-2010 Paper Practice, Report Compilation, China Science and Technology Yuanhang)

  46. Metallogenesis, Metallogenic Regularity, and Regional Comparison of Tungsten and Molybdenum in the Chizhou Area of Anhui Province (2007-2010 Thesis Practice, Graduation Thesis)

  47. Investigation of Baogutu Copper Mine in West Junggar, Xinjiang (2007 internship phase, Xinjiang 305 project)

  48. Investigation of Doranasayi and Tokuzibayi Gold Mines in Altay Prefecture, Xinjiang (Internship Phase 2007, Xinjiang 305 Project)

  49. Investigation of Hexi Gold Mine and Hedong Gold Mine in Yantai, Shandong (internship stage in 2007, Shandong Gold)

  50. Comprehensive Geological and Geophysical Exploration Work of the Qibaoshan Copper Mine in Wulian County, Shandong Province (2007 Internship Phase, Shandong Qibaoshan Copper Mine)

  51. Geological and Geophysical Comprehensive Exploration of Xizhungeer Ximeisi Copper Deposit in Xinjiang (2006 Internship Phase, Xinjiang 305 Project)

  52. Comprehensive Exploration of Deep Geology and Geophysics in Jing'erquan Copper Nickel Mine, Hami Prefecture, Xinjiang (Internship Phase 2005-2006, Jing'erquan Mining)

  53. Comprehensive Geological and Geophysical Prospecting for the Surrounding Areas of the Ashele Copper Zinc Mine in Altay, Xinjiang (Internship Phase 2005-2007, Zijin Mining)

  54. Chronological Study on Ore-bearing Surrounding Rocks of the Ashele Copper Zinc Mine in Altay, Xinjiang (Internship Phase 2005-2007)


Publications

   
Papers
  1. Zheng FS, Qin KZ, Cook NJ, Li GM, Ciobanu CL, Xu YX, Song GX*. 2023. Geology, geochronology, and geochemistry of the Gaojiabang tungsten-molybdenum deposit, Anhui Province, Southeast China. Ore Geology Reviews, 157, 105432 doi:https://doi.org/10.1016/j.oregeorev.2023.105432.

  2. 宋国学*,熊玉新.白钨矿成因矿物学研究现状及研究展望.山东国土资源,2021,37(02):1-9.

  3. Wang L, Qin KZ, Cao MJ, Danišík M, Evans NJ, Li G, Song G, Pang X. 2020. Thermal history of an Early Paleozoic epithermal deposit: Constraints from 40Ar/39Ar and (U–Th)/He thermochronology at Zhengguang, eastern Central Asian Orogenic Belt. Ore Geology Reviews 126:103791 doi:https://doi.org/10.1016/j.oregeorev.2020.103791

  4. Wang L, Qin KZ, Song GX, Pang XY, Li GM, Zou XY. 2020. Geology and genesis of the Early Paleozoic Zhengguang intermediate-sulfidation epithermal Au-Zn deposit, northeast China. Ore Geology Reviews 124:103602 doi:https://doi.org/10.1016/j.oregeorev.2020.103602

  5. Song GX*, Cook NJ,  Li GM,Qin KZ, Cristiana LC, Yang YH, Xu YX. 2019.Scheelite geochemistry in porphyry-skarn W-Mo systems: A case study from the Gaojiabang Deposit, East China. Ore Geology Reviews, 113, Https://doi.org/10.1016/j.oregeorev. 2019.103084.

  6. Song GX*, Cook NJ, Wang L,Qin KZ, Cristiana LC, Li GM. 2019.Gold behavior in intermediate sulfidation epithermal systems: a case study from the zhengguang gold deposit, heilongjiang province, NE-china. Ore Geology Reviews, 106, 446-462.

  7. 宋国学*,秦克章,王乐等. 2019. 斑岩铜金成矿系统中铂在硫化物中的分布特征:以黑龙江多宝山矿田为例. 中国矿物岩石地球化学学会第17届学术年会论文摘要集,189-190.

  8. Zhao C, Qin K-Z, Song G-X, Li G-M, Li Z-Z. 2019. Early Palaeozoic high-Mg basalt-andesite suite in the Duobaoshan Porphyry Cu deposit, NE China: Constraints on petrogenesis, mineralization, and tectonic setting. Gondwana Research 71:91-116 doi:https://doi.org/10.1016/j.gr.2019.01.015.

  9.  宋国学*,秦克章,李光明,王乐. 2018.Basic characteristics and Research progress of Intermediate Sulfidation type epithermal gold poly-metallic deposits, and prospects.岩石学报, 34(3): 748-762.

  10. 宋国学*,秦克章,王乐,郭继海,李真真,佟匡胤,邹心宇,李光明. 2015. 黑龙江多宝山矿田争光金矿床类型、U-Pb年代学及古火山机构. 岩石学报, 31(8): 2402-2416.

  11. Song GX, Qin KZ, Li GM, Noreen JE, and Li XH. 2014. Mesozoic Magmatism and Metallogeny in the Chizhou Area, Middle-Lower Yangtze Valley, SE China: Constrained by Petrochemistry, Geochemistry and Geochronology. Journal of Asian Earth Sciences, 91, 137-153. 

  12. Song GX, Qin KZ, Li GM, Noreen JE, and Chen L. 2014. Scheelite Elemental and Isotopic Signatures: Implications for the Genesis of Skarn-Type W-Mo Deposits in the Chizhou Area, Eastern China. American Mineralogist, 99, 303-317.

  13. Song GX, Qin KZ, Li GM, Li XH, and Qu WJ, 2013. Geochronology and ore-forming fluids of the Baizhangyan W-Mo deposit in the Chizhou Area, Middle-Lower Yangtze Valley, SE-China. Resource Geology, 63(1), 57-71.

  14. Song GX, Qin KZ, Li GM, Li XH, Li JX, Liu TB. and Chang Z.S., 2012. Geochronologic and isotope geochemical constraints on magmatism and associated W–Mo mineralization of the Jitoushan W–Mo deposit, middle–lower Yangtze Valley. International Geology Review, 54(13), 1532-1547.

  15. 刘莉萍,吴文昌,江祖州,贾永刚,宋国学,孙治雷. 2022. 扬子东南缘“湘潭式”锰矿的地球化学特征及成矿机制.地球化学, 51(06):696-715.DOI:10.19700/j.0379-1726.2022.06.008.

  16. 王乐,秦克章,庞绪勇,宋国学,金露英,李光明,赵超. 2017. 多宝山矿田铜山斑岩铜矿床地质特征与蚀变分带:对热液-矿化中心及深部勘查的启示.矿床地质, 36(05):1143-1168.DOI:10.16111/j.0258-7106.2017.05.007.

  17. 庞绪勇,秦克章,王乐,宋国学,李光明,苏仕强,赵超. 2017. 黑龙江铜山断裂的变形特征及铜山铜矿床蚀变带-矿体重建.岩石学报, 33(02):398-414.

  18. 赵超,宋国学,秦克章,李光明,李真真,金露英,孟昭君,张夏楠. 2017. 大兴安岭北段富林矽卡岩铜矿床成因:印支期含矿岩浆源区特征、蚀变矿物学及勘查意义.岩石学报,33(02):455-475.

  19. 庞绪勇,秦克章,王乐等. 2016.中亚造山带东段铜山断裂变形特征与早古生代铜山斑岩铜矿蚀变带-矿体复原.中国地球科学联合学术年会论文集专题15, 中央造山系构造演化, 62-66.

  20. 金露英,秦克章,李光明,李真真,宋国学,孟昭君. 2015.大兴安岭北段岔路口斑岩Mo-热液脉状Zn-Pb成矿系统硫化物微量元素的分布、起源及其勘探指示.岩石学报, 31(08):2417-2434.

  21. 佟匡胤,杨言辰,宋国学,梁海军,马龙飞. 2015. 黑龙江争光金锌矿地质特征、矿床成因及找矿潜力探讨.地质与勘探, 51(03):507-518.DOI:10.13712/j.cnki.dzykt.2015.03.011.

  22. 金露英,秦克章,孟昭君,李光明,宋国学,李真真,吕克鹏,阚学胜,赵超. 2014.大兴安岭北段岔路口巨型钼(锌铅)矿床脉体特征、产状及其对成矿的指示.矿床地质, 33(04):742-760.DOI:10.16111/j.0258-7106.2014.04.025.

  23. 李真真,李光明,孟昭君,秦克章,宋国学,金露英,阚学胜,王进,张夏楠. 2014. 大兴安岭岔路口巨型斑岩钼矿床角砾岩相的划分、特征及成因.矿床地质, 33(03):607-624.DOI:10.16111/j.0258-7106.2014.03.005.

  24. 金露英,李光明,李真真,宋国学,秦克章,孟昭君,吕克鹏,阚学胜. 2012. 大兴安岭北段岔路口斑岩钼多金属矿床高氟高氧化成矿流体特征.矿床地质, 31(S1):663-664.DOI:10.16111/j.0258-7106.2012.s1.335.

  25. 李真真,秦克章,宋国学,金露英,李光明,孟昭君,阚学胜,李宪臣. 2012. 大兴安岭北段岔路口巨型高氟型斑岩钼矿成矿特色与关键控制因素.矿床地质, 31(S1):297-298.DOI:10.16111/j.0258-7106.2012.s1.151.

  26. 孟昭君,阚学胜,王建平,秦克章,李真真,李宪臣,李光明,吕克鹏,宋国学,金露英,张瑞忠,石耀军,孙振江. 2012. 黑龙江大兴安岭岔路口巨型斑岩钼-铅锌多金属矿发现勘查及启示.矿床地质, 31(S1):327-328.DOI:10.16111/j.0258-7106.2012.s1.166.

  27. 申萍,沈远超,刘铁兵,潘鸿迪,孟磊,宋国学,代华五. 2010. 西准噶尔谢米斯台铜矿的发现及意义.新疆地质, 28(04):413-418.

  28. 孟磊,申萍,沈远超,刘铁兵,宋国学,代华五,李成凯,郎泽松. 2010. 新疆谢米斯台中段火山岩岩石地球化学特征、锆石U-Pb年龄及其地质意义.岩石学报, 26(10):3047-3056.

  29. 宋国学,秦克章,李光明. 2010. 长江中下游池州地区矽卡岩-斑岩型W-Mo矿床流体包裹体与H、O、S同位素研究.岩石学报, 26(09):2768-2782.

  30. 宋国学,秦克章,李光明. 2010. 长江中下游池州地区鸡头山钨钼矿矽卡岩化过程中主量、微量元素的迁移规律.矿床地质, 29(S1):1121-1122.DOI:10.16111/j.0258-7106.2010.s1.531.

  31. 宋国学. 2009. 鸡头山Mo-W矿成矿流体包裹体特征及其对深部斑岩型矿化的指示.矿物学报, 29(S1):23-24.DOI:10.16461/j.cnki.1000-4734.2009.s1.184.

  32. 申萍,沈远超,刘铁兵,卢洁瑾,魏锦萍,宋国学,孟磊. 2008. 新疆西北缘晚古生代金铜成矿作用与构造演化.岩石学报, 24(05):1087-1100.

  33. Wang, L., Qin, K.Z.*, Song, G.X., Li, G.M., 2019. A review of intermediate sulfidation epithermal deposits and subclassification. Ore Geology Reviews, 107: 434–456.

  34. Wang, L., Qin, K.Z.*, Song, G.X., Pang, X.Y., Li, Z.Z., Zhao, C., Jin, L.Y., Zou, X.Y., Li, G.M., 2018. Volcanic-subvolcanic rocks and tectonic setting of Zhengguang intermediate sulfidation epithermal Au-Zn deposit, eastern CAOB. Journal of Asian Earth Sciences. 165: 328-351.

  35. Zhao, C., Qin, K.Z.*, Song, G.X. Li, G.M., Li, Z.Z., Pang, X.Y., Wang, L., 2018. Petrogenesis and tectonic setting of ore-related porphyry in the Duobaoshan Cu deposit within the eastern Central Asian Orogenic Belt, Heilongjiang Province, NE China. Journal of Asian Earth Sciences, 165: 352-370.

  36. 王乐, 秦克章*, 庞绪勇, 宋国学, 金露英, 李光明, 赵超, 2017. 多宝山矿田铜山斑岩铜矿床地质特征与蚀变分带:对热液-矿化中心及深部勘查的启示. 矿床地质. 36(5): 1143-1168.

  37. 庞绪勇, 秦克章*, 王乐, 宋国学, 李光明, 苏仕强, 赵超, 2017. 黑龙江铜山断裂的变形特征及铜山铜矿床蚀变带-矿体重建. 岩石学报, 33(2): 398-414.

  38. 宋国学*, 秦克章, 王乐, 郭继海, 李真真, 佟匡胤, 邹心宇, 李光明, 2015. 黑龙江多宝山矿田争光金矿床类型、U-Pb年代学及古火山机构. 岩石学报, 31(08): 2402-2416.

  39. Li GM, Qin KZ, Song GX, Bagas L. 2017. The oldest Mo porphyry mineralization in the Yangtze Valley Metallogenic Belt of eastern China: Constraints on its origin from geochemistry, geochronology and fluid inclusion studies at Matou. Ore Geology Reviews 91:491-508 doi:https://doi.org/10.1016/j.oregeorev.2017.09.006

  40. Li Z-Z, Qin K-Z, Li G-M, Jin L-Y, Song G-X . 2018. Neoproterozoic and Early Paleozoic magmatic records from the Chalukou ore district, northern Great Xing’an Range, NE China: Implications for tectonic evolution and Mesozoic Mo mineralization. Journal of Asian Earth Sciences 165:96-113 doi:https://doi.org/10.1016/j.jseaes.2018.06.020

  41. Wang L, Qin KZ, Song GX, Pang XY, Li ZZ, Zhao C, Jin LY, Zou XY, Li GM. 2018. Volcanic-subvolcanic rocks and tectonic setting of the Zhengguang intermediate sulfidation epithermal Au-Zn deposit, eastern Central Asian Orogenic Belt, NE China. Journal of Asian Earth Sciences 165:328-351 doi:https://doi.org/10.1016/j.jseaes.2018.07.023

  42. Zhao C, Qin KZ, Song GX, Li GM, Li ZZ, Pang XY, Wang L. 2018. Petrogenesis and tectonic setting of ore-related porphyry in the Duobaoshan Cu deposit within the eastern Central Asian Orogenic Belt, Heilongjiang Province, NE China. Journal of Asian Earth Sciences 165:352-370 doi:https://doi.org/10.1016/j.jseaes.2018.07.002

  43. 宋国学,秦克章,李光明. 2010. 长江中下游池州地区矽卡岩型-斑岩型W-Mo矿流体包裹体与H、O 、S同位素研究. 岩石学报, 26(9): 2768-2782.

  44. 宋国学,秦克章,刘铁兵,李光明,申萍. 2010. 阿尔泰南缘阿舍勒盆地泥盆纪火山岩中古老锆石的U-Pb年龄、Hf同位素和稀土元素特征及其地质意义.岩石学报,26(10): 2946-2958.

  45. 宋国学,秦克章,李光明. 2010. 长江中下游池州地区鸡头山钨钼矿矽卡岩化过程中主量、微量元素的迁移规律. 矿床地质(增刊),29:1121-1122.

  46. 宋国学,秦克章,李光明. 2009. 安徽鸡头山Mo-W矿成矿流体包裹体特征及其对深部斑岩型矿化的指示. 矿物学报(增刊),29: 23-24.

  47. 宋国学,秦克章,李光明. 2008. 长江中下游钼矿床的类型、时空分布及其动力学背景探讨. 第九届全国矿床会议论文集,地质出版社: 27-28.


Research Interests

  1. Metallogenic Mechanism and Prediction of Hydrothermal Metal Deposits

  2. Application of genetic mineralogy in the study of ore deposit genesis

  3. The formation and evolution process of the earth (from the perspective of mineralogy)

Enrollment major: mineralogy, ore deposit science, experimental geochemistry; 

Require students to care for themselves and others with love, and to be down-to-earth in learning.