WU Chang-Zhi Professor

• Department: School of Earth Sciences and Resources
• Gender: male
• BirthDate:
• Career: Professor
• Degree: Ph. D
• Academic Credentials: Ph.D
• Graduate School: Nanjing University
• Tel:
• Email: wucz@chd.edu.cn
• Address School:
• PostCode School:
• Fax School:
• Office Location: 213#, School of Earth Sciences and Resources
• Education experience:

  
  

  1) Sep., 2001 ~ Jun.,2004 Department of Earth Sciences, Nanjing University

                                            Received Ph. D from NanjingUniversity in Jun., 2004

  2) Sep., 1999 ~ Jul., 2001  Department of Earth Sciences, Nanjing University
                                              MS. Graduate 1 year ahead of schedule for excellent study

  3) Sep., 1994 ~ Jul., 1998  Department of Earth Sciences
                                             Science and Technology University of Changchun (Now a parts of Jilin University)

  
  

                                              BS. awarded by the University in Jun., 1998

Changzhi Wu was born in Dongzhi County, Anhui Province. His now is a distinguished professor of the Yangtze River Scholar Award Program of the Ministry of Education. He received his bachelor's degree from Changchun Geology College in 1998 and his doctorate from Nanjing University in 2004. He then taught at Nanjing University, serving as a lecturer, associate professor and professor, and director of the Mineral Deposits Teaching and Research Section (2016-2020). In September 2020, he joined Chang'an University as a distinguished professor of Chang'an Scholar.

He is mainly interested in the formation mechanism of metal deposits, with a special focus on the coupling relationship and genetic connection between epochal geological events and mineralization. He has presided over 7 National Natural Science Foundation projects (including 1 joint fund key project, 1 major research plan key project, 4 general projects, and 1 youth fund), 1 key R&D project of the Xinjiang Uygur Autonomous Region, and participated in more than 1 national key R&D plan and China Geological Survey project. He has won the Second Prize of Natural Science of the Ministry of Education (2008), the Second Prize of Science and Technology of Nonferrous Metals Industry (2021), and the First Prize of Geological Prospecting of Xinjiang Bureau of Geology and Mineral Resources (2018). He has published more than 50 papers as the first and/or corresponding author in important domestic and foreign journals such as GCA, ESR, GSA Bulletin, AAPG Bulletin, Geochemical Perspective Letters, Precambrian Research, etc., with an H-index of 33 and more than 4,100 citations.

2013-2016, Principle investigator sponsored by the National Natural Science Foundation of China (NSFC): Postmagmatic ductile deformation and metallogenic elements remobilization mechanism for Huangshandong magmatic Ni-Cu sulfide deposit, NW China, About 150 k US dollar

●Investigate the distribution of Ni-Cu sulfide orebodies near the mafic-ultramafic pluton and gold-bearing quartz veins near the pluton and shearing zone.

●Observe and analyze petrology and geochemistry evolution characteristics of mafic-ultramafic plutons and Ni-Cu sulfide ore bodies, especially their ductile shearing characteristics.

●Analysis in situ mineral geochemistry data and comparative research on sulfide minerals that have undergone ductile and brittle deformation, as well as those that were undeformed.

●Discusse and summarize deformation and metallogenic element remobilization mechanisms for magmatic Ni-Cu sulfide deposits.

2011-2015, Principle investigator sponsored by National Geological Survey Bureau: Forming Mechanism and Potentiality of Precambrian Gold deposits Around Tarim Block. About 300 k US dollar.

●Investigating the distribution of gold deposits in the major Precambrian units around Tarim Block.

●Observing and analyzing forming mechanism for typical gold deposits and evaluating potentiality of gold mineralization in related area.

●Discussing and summarizing the Precambrian geological evolution and metallogenesis of Tarim Block.

2009-2011, Principle investigator sponsored by the National Natural Science Foundation of China (NSFC): Paleogene Basaltic and Trachytic Volcanic-intrusive rocks in the Xiaoliaohe Depression: Implication for Subcontinental Lithosphere Transformation of Eastern North China.

●Investigated the timing and distribution of basalts and trachytes in the Xialiaohe depression, Bohai Bay Basin.

●Observed and analyzed petrology and geochemistry evolution characteristics of volcanics in different formations.

●Discussed and summarized the evolution of the lithosphere of eastern North China during the Paleogene.

2007-2009, Principle investigator sponsored by NSFC: Petrographical Zonation of the Baishitouquan Rb- and F-enriched Granite in Relation to Mineralogical and Elemental Differentiation.

●Investigated the mineralogical and geochemical variation of a topaz- and amazonite-bearing leucogranite pluton with progressive evolution.

●Characterized formation mechanisms and evolution processes of the lanthanide tetrad effects in the pluton.

2006-2010, Principle investigator of sub project of “973”: Yangjiazhangzi-Bajiazi Mo deposits and related granite in West Liaoning Province, NE China. About 60k US dollar.

●Investigated the mineralogical and geochemical variation of Mesozoic granites in West Liaoxi Province with progressive evolution.

●Observed formation mechanisms and evolution processes of the Mo and Pb-Zn deposits.

●Characterized fluid regime and metallogeny for the Mesozoic porphyry molybdenum deposit.

Doctoral and master's Research in State Key Laboratory for Mineral Deposits Research, Nanjing University

●Investigated various hydrocarbon reservoirs related to igneous rocks, particularly those related to trachytes.

●Established a general model for the formation of hydrocarbon reservoirs related to igneous rocks.

●Investigated the timing, distribution and geochemistry of basalts in the Xialiaohe depression, Bohai Bay Basin.

●Established a geological model of lithosphere transformation in eastern North China based on the basalt’s genesis and basin evolution in the Xialiaohe Depression.

2021 to Now Mineral deposits Geology for undergraduate students at Chang'an University 

2006 to 2020 Economic Geology for undergraduate students at Nanjing University;

Principle Investigator:

1) 2025-2028 Principle investigator sponsored by the National Natural Science Foundation of China (NSFC): Ore-forming processes and emplacement mechanism of late Paleozoic Ni-Cu sulfide deposits in Eastern Tianshan, 2 600 k RMB

2）2020-2023 Principle investigator sponsored by the National Natural Science Foundation of China (NSFC): Geological characteristics and metallogenesis of rubidium-rich granites and related rubidium deposits in the Eastern Tianshan orogen, 3120 k RMB

3) 2019-2022 Principle investigator sponsored by the National Natural Science Foundation of China (NSFC): Characteristics, genesis type and tectonic settings for Early Precambrian iron formations of North Yangtze block,660 k RMB

4)  2017 to 2019 Principle investigator sponsored by the National Natural Science Foundation of China (NSFC): Tectonic settings, sentimental enviroments and ore-forming mechanism for Neoproterozoic Iron Formations from the quruqtage block,Northeast Tarim， 600 k RMB

5）2013-2016, Principle investigator sponsored by the National Natural Science Foundation of China (NSFC): Postmagmatic ductile deformation and metallogenic elements remobilization mechanism for Huangshandong magmatic Ni-Cu sulfide deposit, NW China, 920 k RMB

6） 2011-2015, Principle investigator sponsored by National Geological Survey Bureau: Forming Mechanism and Potentiality of Precambrian Gold deposits Around Tarim Block. About 2000  k RMB.

Published more thatn 60 papers with first or corresponding author from 2020

2025

66)  Li, X., Lei, R.X.*,Brzozowski, M.J., Ye, H.*, Wang, X., Zhang, Z.H.,  Wu, C.Z.  (2025). Depositional age and tectonic setting of the Dimunalike iron formation in southeast Tarim Craton: Implications for the resurgence of Neoproterozoic iron formations. Precambrian Research, 417, 107665.

65)  Wang, X., Ye, H.*, Gao, Y., Brzozowski, M.J., Li, X., Lei, R.X., Wu, C.Z.*  (2024). Depositional age and environment of the Xinyu iron deposit in the Nanhua Basin, South China. Precambrian Research, 107671.

2024

64)  She, J.X., Li, W.*, Kubik, E., Moynier, F., Luo, X.L, Mu, J., An, S., Wu, C.Z.,  Hu, Z., Ji, J. (2024). Tin isotope heterogeneity and baseline of the upper continental crust. GEOCHIMICA ET COSMOCHIMICA ACTA. 381: 43-59.

63) Luo, X.L, Wu, C.Z.*,  She, J.X., Brzozowski, M., Du, D.H., An, S., Li, W. (2024). Understanding the extreme differentiation of granitic magmas through elemental geochemistry and Fe isotope signatures. GEOCHIMICA ET COSMOCHIMICA ACTA. 380: 31-47.

62) Ye, H., Wu, C.Z.*,  Li, W., Lei, R.X.*, Sun, X., Hao, W., Konhauser, K. (2024). Deposition and termination of Neoproterozoic iron formations (NIFs): New insights from NIFs in China. EARTH-SCIENCE REVIEWS. 256: 104861.

61) Wang, Z.H., Lei, R.X*., Brzozowski, M.J., Ma, H.D. and Wu, C.Z., (2024). Magmatic–hydrothermal evolution processes of the highly evolved granitic system: insight from zircon of the Baishitouquan pluton, NW China. GSA Bulletin. 37425

60) Muhtar, M. N., Xiao, W., Brzozowski, M. J., Mao, Q., Yang, H., & Wu, C.Z.. (2024). Permian− Triassic magmatism above a slab window in the Eastern Tianshan: Implications for the evolution of the southern Altaids.  GSA Bulletin.37133

59) Wu, S., Lei, R.X*., Brzozowski, M.J., Wang, W., Luo, X., and Wu, C.Z., (2024). Rubidium (Rb) enrichment processes in a highly evolved granitic system: Insights from the petrology and geochemistry of the Guobaoshan Rb deposit in Easter Tianshan, NW China. GSA Bulletin. 37702. DOI:10.1130/B37702.1

58) Jia, L., Wu, C.Z.*,  Lei, R.X., Brzozowski, M.J., Wang, Y.T., Qian, Z.Z., Deng, X.H. (2024).  Geochronology and geochemistry of zircon and columbite–tantalite group minerals from the Weilasituo Sn–polymetallic deposit, northeastern China: Implications for the relationship between mineralization and the magmatic–hydrothermal transition.  ORE GEOLOGY REVIEWS, 106407. 

57) Bai, S.H., Lei, R.X.*, Brzozowski, M.J., Wang, Z., Wang, W., Wu, C.Z.*, (2024). Permian ridge subduction-related magmatism in the Chinese Altai: Insights from geochronology and geochemistry of the Jiangjunshan pluton．JOURNAL OF EARTH SCIENCE. DOI: 10.1007/s12583-024-0088-y

56) Hu, JJ., Lei, R.X.*, Brzozowski, M.J.,and Wu, C.Z., (2024) . Textures and chemistry of columbite-group minerals record magmatic–hydrothermal processes in  the Baishitiouquan pluton in the Eastern Tianshan, NW China. ORE GEOLOGY REVIEWS, 106319.

55) Jin, X.W., Lei, R.X.*, Yuan, H.D., Brzozowski, M.J.,and Wu, C.Z., (2024) . Rb enrichment processes in highly evolved granites: Insights from mica and K-feldspar from the Baishitiouquan pluton, Eastern Tianshan. ORE GEOLOGY REVIEWS, 106301.

54) Yuan, H.D., Lei, R.X.*, Brzozowski, M.J., Wang, Z.H., Tian, Y., Wang, W., Wu, C.Z. (2024). Multi-stage magmatic–hydrothermal evolution of nepheline pegmatite: Insights from the mineralogy and geochronology of a zircon megacryst from the Yilanlike nepheline pegmatite, South Tianshan. ORE GEOLOGY REVIEWS, 106188.

53)  贾力，吴昌志* ，焦建刚，钱壮志，雷如雄. (2024). 大兴安岭南段北大山岩体的年代学与地球化学：岩石成因及成矿潜力的指示. 岩石学报，40(3): 961-986.

52) 唐国卿; 吴昌志* ; 新疆硬岩型铷矿资源的主要成因类型与成矿潜力. (2024). 矿物岩石地球化学通报, 2024, 43(1): 102-126.

51) 王雨婷，杜静国，雷如雄，邓小华，吴昌志* . (2024). 内蒙古维拉斯托矿床隐爆角砾岩型锂铷矿体的成矿流体特征与成矿过程. 地球科学，49(12): 1-17

50) 王鹏寅，雷如雄*，吴世保，吴昌志*，袁海波. (2024). 东天山印支期闪长质岩墙岩石成因及构造意义. 岩石学报，40(8): 2389-2414.

49) Du, J., Du, Y., Wang, G., Wu, C.Z., Mao, J., & Zhang, L. (2024). Gold mineralisation by pyrite recrystallisation and arsenopyrite sequestration in the Jiaochong Au deposit, Tongling ore district, eastern China: Implications for the formation of stratabound ore deposits. Ore Geology Reviews, 105955.

48) Yang, X., Mao, J., Bowyer, F. T., Wu, C.Z., Li, R., Zhao, C., Yang, G., & Poulton, S. W. (2024). A phosphate-rich marine reservoir in the redox stratified Ediacaran ocean. Communications Earth & Environment, 5(1), 41.

47) Amraei, S., Yazdi, M., Qiu, L., Wu, C.Z., Chen, L., Moine, B., Ghasemi Siani, M., & Rajabpour, S. (2024). Apatite U–Pb geochronology and whole rock, Sr–Nd–Pb isotopic geochemistry of XV mafic‐ultramafic intrusion, Bafq, Central Iran: Implications for petrogenesis and tectonic setting. Island Arc, 33(1), e12514.

2023

46) Bai, S., Lei, R. X., Brzozowski, M. J., Hao, L., Zhang, K., & Wu, C.Z.* (2023). Constraints on the timing of magmatism and rare-metal mineralization in the Fangzheng Rb deposit, Altai, NW China: Implications for the spatiotemporal controls on rare-metal mineralization. Ore Geology Reviews, 105427.

45) Muhtar, M.N., Wu, C.Z.*, Brzozowski, M.J, Santosh, M., Tian, R.S., Xie, G.A., Zhang, W.F., Lei, R.X., Xiao, W.J. (2023). Timing and spatial variation of deformation along the Kanggur–Huangshan Shear Zone in the Chinese Tianshan: Implications for regional differential uplift and mineralization. GSA BULLETIN , 135(5/6): 1429-1448.

44) Ye, H., Wu, C.Z.*, Brozozowski, M., Yang, T., Sun, X.H., Lei, R.X., Li, W.,  (2023). Genesis of the Longwanggou iron deposit in the Yudongzi Complex, South China: implications for the redox state of seawater at the onset of the Great Oxidation Event. ORE GEOLOGY REVIEWS. 2023.105562.

43) Tian, R., Muhtar, M.N., Xie, G., Wu, C.Z.* (2023). Episodic magmatism in the Dananhu arc, Eastern Tianshan: Implications for the Late Paleozoic tectonic evolution of the North Tianshan Ocean. INTERNATIONAL GEOLOGY REVIEW, 2023, 65(5): 720–738.

42) Sun, X. H., Li, X., Lei, R. X., Brzozowski, M. J., Ma, H. D., Li, W., Xiong, L. M., Xia, M. Y., & Wu, C.Z*. (2023). Paleoproterozoic crustal evolution of the Tarim Craton, NW China: Constraints from geochronology and geochemistry of orthogneisses and granitic veins in the Xingdi region of the Quruqtagh Block. Precambrian Research, 399, 107247.

41) Sun, X.H.*, Luan, Y., Zhang, T.Y., Brzozowski, M.J*., Ye, H., & Wu, C.Z. (2023). Geochemistry, zircon U-Pb chronology and Hf isotope composition of the Heishan’gou iron deposit in the Bikou Terrane, central China: Implication for the genesis of the Yudongzi banded iron formations. ORE GEOLOGY REVIEWS, 105250.

40) Wu, S. B., Lei, R. X.*, Brzozowski, M. J., Wang, W., Yuan, H. B., & Wu, C.Z. (2023). Early Neoproterozoic magmatism in the Central Tianshan Block, China: Implications for its tectono-magmatic evolution and relationship to Rodinia. Precambrian Research, 397, 107203.

39) Muhtar, M. N., Xiao, W., Brzozowski, M. J., Chen, S., Aibai, A., Wang, M., & Wu, C.Z. (2023). Genetic link between orogenic Au and porphyry Cu (Au) mineralization in the Dananhu Arc, NW China: Evidence from geochronology, geochemistry, and Sr–Nd–Hf isotopes of the Tudunbei Au deposit. Journal of Geochemical Exploration, 253, 107280.

38) Yang, X., Mao, J., Wu, C.Z., Li, Z., Konhauser, K. O., Chen, B., & Yang, G. (2023). Genesis and depositional environment of the Carboniferous Baishanquan iron deposit in Eastern Tianshan, Northwestern China. Lithos, 456, 107304.

37) Mu, J., Zhao, S., Brzozowski, M., Li, H., Wu, C.Z., & Li, W. (2023). Geology, geochemistry and genesis of the world-class Shizhushan wollastonite deposit, Mengshan area, South China. Ore Geology Reviews, 105469.

36) 穆合塔尔·麦麦提尼亚孜，吴昌志，肖文交. 2023. 东天山康古尔-黄山剪切逞的活动与成矿：对区域找矿勘查的指示. 岩石学报，39(11)：3434-3446.

35) 吴世保; 雷如雄; 吴昌志. (2023). 北山白头山铷矿赋矿花岗岩锆石U-Pb年龄、分异演化过程及对铷成矿的约束, 地质通报, 2023, 42(5)：714-729.

34) 邓小华, 吴昌志, 吴艳爽, 陈西, 张静, 石煜, & 陈衍景. (2023). 东天山印支期矿床地质特征、成因类型及成矿规律. 地球科学与环境学报, 45(3): 590-621.

33) 张凯, 雷如雄, 孙晓辉, & 吴昌志. (2023). 中天山地块沙垄铁建造矿石矿物原位微量元素特征及其意义. 吉林大学学报 (地球科学版), 53(1), 88-105.

2022

32) Wu, C.Z.*, Zhao, F.F., Yang, T, Lei, R.X., Ye, H., Gao, B.F., Li, W. (2022). Genesis of the Fulu Cryogenian Iron Formation in South China: synglacial or interglacial? PRECAMBRIAN RESEARCH. 2022.106689

31) Muhtar, M. N*., Wu, C.Z, Brzozowski, M. J., Lei, R., Wang, M., & Xiao, W*. (2022). Permian ridge subduction-related magmatism in the Eastern Tianshan: Implications for the evolution of the southern Altaids. LITHOS, 428, 106815.

30) 唐国卿; 吴昌志* (2022). 铷与铯——稀有金属中的绝代双骄, 矿物岩石地球化学通报, 41(5): 1073-10776.

29) Feng, Z.J. , Yang, T.*, Yao, X., Brzozowski, M.J.*, Lei, R.X., & Wu, C.Z. (2022). Ore forming and reworking processes in the Xitieshan Pb–Zn deposit, Qinghai Province, China: constraints from in situ trace-element and S isotope compositions of sulfides. ORE GEOLOGY REVIEWS, 105103.

28) Brzozowski, M.J.*, Good, D. J., Yan, W., Wu, C.Z, An, S., & Li, W. (2022). Mg–Fe isotopes link the geochemical complexity of the Coldwell Complex, Midcontinent Rift to metasomatic processes in the mantle. JOURNAL OF PETROLOGY, 63(8), egac081.

27) Yang, X.*, Mao, J., Santosh, M., Li, R., Wu, C., Gao, J., Wang, Z. (2022). Ediacaran iron formations from the North Qilian Orogenic Belt, China: Age, geochemistry, Sm–Nd isotopes and link with submarine volcanism. PRECAMBRIAN RESEARCH, 368, 106498.

26) Sun, X.H., Li, X., Lei, R.X., Yang, X.F., Chen, J.Z., Wu, C.Z.*, (2022). Geochronology and geochemistry of gneiss and migmatite from the Korla Complex in the Quruqtagh block, NW China: Implications for Proterozoic crustal evolution of the northeastern Tarim Craton.ORE GEOLOGY REVIEWS. 2022.105127.

25) Lei, R.X., Wu, C.Z.*, Zhang, K., Yang, X.F., Ye, H. (2022). Depositional environment and genesis of the Paleoproterozoic Astingbulake banded iron formations from the Quruqtagh Block, Northeast Tarim Craton. ORE GEOLOGY REVIEWS, 2022.104946.

24) Lei, R.X.*, Brzozowski, M.J., Feng, Y.G., Zhang, K., Muhtar, M. N., Luo, X, Wu, C.Z.* (2021). Triassic crust–mantle interaction in the Eastern Tianshan, southern Altaids: insights from microgranular enclaves and their host Tianhu granitoids. Lithos, 2021. 402-403, 105879.

23) Muhtar, M.N.#, Wu, C.Z.*, Brzozowski, M.J., Zhang, W.F., Chen, B.Y., Lei, R.X., Xiao, W.J. (2022). Age and genesis of the Jinshan gold deposit in the Chines North Tianshan: a link to large-scale strike–slip shearing events. ORE GEOLOGY REVIEWS, 104734.

22) Wu, C.Z.*, Deng, X.H.,  Bagas, L., Brzozowski, M.J., Chen, Y.J. (2022). Critical Metals in Northwest China: Characters, genesis and tectonic settings, FRONTIERS IN EARTH SCIENCE, 851360 (Editorial).

21) Chen, B.Y., Wu, C.Z.*, Brzozowski, M.J., Lei, R.X., Muhtar, M.N., Li, T.G., Zhang, Y.K., and Chen, J., (2022). Geochronology and tectonic setting of the giant Guobaoshan Rb deposit, Central Tianshan, NW China. ORE GEOLOGY REVIEWS, 104636.

20) Feng, Z. J., Yang, T., Yao, X., Brzozowski, M. J., Lei, R. X., & Wu, C.Z. (2022). Ore forming and reworking processes in the Xitieshan Pb–Zn deposit, Qinghai Province, China: constraints from in situ trace-element and S isotope compositions of sulfides. Ore Geology Reviews, 105103.

19) Brzozowski, M. J., Good, D. J., Yan, W., Wu, C.Z., An, S., & Li, W. (2022). Mg–Fe isotopes link the geochemical complexity of the Coldwell Complex, Midcontinent Rift to metasomatic processes in the mantle. Journal of Petrology, 63(8), egac081.

18) Yang, X., Mao, J., Santosh, M., Li, R., Wu, C.Z. , Gao, J., Zhang, X., & Wang, Z. (2022). Ediacaran iron formations from the North Qilian Orogenic Belt, China: Age, geochemistry, Sm–Nd isotopes and link with submarine volcanism. Precambrian Research, 368, 106498.

2021

17) 吴昌志*，贾力，雷如雄，陈博洋，丰志杰，凤永刚，智俊，白世恒. (2021). 中亚造山带天河石花岗岩及相关铷矿床的主要特征与研究进展. 岩石学报，37(9): 2604-2628.

16) Wang, S.M., Wu, C.Z.*, Muhtar, M.N., Lei, R.X., Brzozowski, M.J*. (2021). Mobilization of ore-forming metals during post-magmatic hydrothermal overprinting of the Huangshandong Ni–Cu sulfide deposit, Eastern Tianshan, NW China. ORE GEOLOGY REVIEWS. 2021.104315.

15) Zhi, J., Lei, R.X.*, Chen, B.Y., Muhtar, M.N., Feng, Z.J., Zhang, K., Cai, Y.F., and Wu, C.Z. (2021). Zircon genesis and geochronology for the Zhangbaoshan super-large Rubidium deposit in Eastern Tianshan, NW China: implication to magmatic-hydrothermal evolution and mineralization processes, FRONTIERS IN EARTH SCIENCE, 2021.682720.

14) Li, P.*, Liang, T.*, Feng, Y., Zhao, T., Tian, J., Li, D., Li, J., Chen, G., Wu, C.Z. (2021).The Metallogeny of the Lubei Ni–Cu–Co Sulfide Deposit in Eastern Tianshan, NW China: Insights from Petrology and Sr–Nd–Hf Isotopes. FRONTIERS IN EARTH SCIENCE, 2021. 648122.

13) 甘凯，吴昌志*，杨涛，刘浩存，叶辉，向萌，刘家润，李伟强. (2021). 鲕状铁建造的特征与形成机制——以鄂西泥盆系火烧坪铁矿床为例.  地质学报，2021.  95(8): 2493-2508.(封面文章)

12) 党奔，吴昌志*，杨涛，姚希柱，王思梦，郑远川，顾连兴. (2021).辽宁红透山块状硫化物矿床中矿体的变质变形特征与形成过程. 地质通报，2021. 40(4): 545-556.

11) 凤永刚，梁婷，雷如雄，雷如雄，鞠明辉，张忠利，高景刚，周义，吴昌志. (2021). 稀有金属伟晶岩过度冷却与侵位之关系——基于野外地质观察及年代学的思考. 地球科学与环境学报, 2021 43(1): 100-116.

10) Brzozowski*, M. J., Good, D. J*., Wu, C.Z., & Li, W*. (2021). Iron isotope fractionation during sulfide liquid evolution in Cu–PGE mineralization of the Eastern Gabbro, Coldwell Complex, Canada. Chemical Geology, 576. 120282.

9) Muhtar, M.N.#, Wu, C.Z.*, Brzozowski, Lei, R.X., Feng, Z.J., Chen, B.Y., Jiang, Y.H. (2021).Sericite ⁴⁰Ar/³⁹Ar dating and S-Pb isotope composition of the Kanggur gold deposit: Implications for metallogenesis of late Paleozoic gold deposits in the Tianshan, Central Asian Orogenic Belt, Ore Geology Reviews. 131. 104045.

2020

8) Lei, R.X.*, Zhang, K., Muhtar, M. N., Wu, C.Z.* (2020).Neoproterozoic non-glaciogenic iron formation: Insights from Fe isotope and elemental geochemistry of the Shalong iron formation from the Central Tianshan block, southern Altaids, Precambrian Research, 105959

7) Wu, C.Z., Yang, T., Shields, G.A., Bian, X., Gao, B., Ye, H. Li, W.* (2020).Termination of Cryogenian ironstone deposition by the spread of euxinia in deep ocean. Geochemical Perspectives Letters, 15,1-5.

6) Muhtar, M.N., Wu, C.Z.*, Brzozowski, M.J., Li, P., Yuan, X.C., Wang, S.M., Zhi, J., Jiang, Y.H. (2020).Geochronology, geochemistry, and Sr–Nd–Pb–Hf–S isotopes of the wall rocks of the Kanggur gold polymetallic deposit, Chinese North Tianshan: Implications for petrogenesis and sources of ore-forming materials. Ore Geology Reviews. 2103688

5) Muhtar, M.N., Wu, C.Z.*, Santosh, M., Lei, R.X., Gu, L.X., Wang, S.M., Gan, K., (2020). Late Paleozoic tectonic transition from subduction to post-collisional extension in Eastern Tianshan, Central Asian Orogenic Belt. GSA Bulletin 132 (7/8), 1756–1774.

4) Muhtar, M.N., Wu, C.Z.*, Santosh, M., Lei, R.X., Feng, Y., Yang, T., Ye, H., Gu, L.X. (2020).Peraluminous granitoid magmatism from isotopically depleted sources: The case of Jing'erquanbei pluton in Eastern Tianshan, Northwest China. Geological Journal.55: 117–132.

3) Lei, R. X., Wu, C.Z.*, Muhtar, M. N., Brzozowski, M. J., Zhao, T. Y., Xie, G. A., & Dong, L. H. (2020). The first Precambrian gold deposit in North Xinjiang, NW China: geochronology, metallogenic character, and ore genesis of the Dajingou gold deposit. Ore Geology Reviews, 2020, 119: 103208.

2) Ye, H., Wu, C.Z., Brzozowski, M.J., Yang,T., Zha,X., Zhao, S., Gao,B., Li, W.*(2020). Calibrating equilibrium Fe isotope fractionation factors between magnetite, garnet, and biotite, Geochimica et Cosmochimica Acta 271, 78-95. 

1) Brzozowski*, MJ., Good, D.J., Wu, C.Z., Li, W.*,(2020). Cu isotope systematics of conduit-type Cu–PGE mineralization in the Eastern Gabbro, Coldwell Complex, Canada, Mineralium Deposita 106, 1-18.

1) Sep. 2020  to Now:         School of Earth Science and Resources, Chang'an University
                                            Distinguished Professor 

2) Dec. 2017 to Aug. 2020  School of Earth Sciences and Engineering, NanjingUniversity, China
                                            Professor  

3) Dec. 2012 to Jul. 2014   Department of Earth Sciences and Environment, University of Windsor, Canada
                                           Visiting Scholar

4) Dec., 2006 to Nov. 2017 School of Earth Sciences and Engineering, Nanjing University, China
                                            Associated Professor  

5) Jul., 2004 to Nov. 2006   School of Earth science and Engineering, Nanjing University, China

                                              Lecturer 

6) Jul., 1998 to Aug., 1999  West Fujiang Geology Exploration Team of Fujiang Province, China

                                            Assistant Engineer for mineral exploration