详细介绍 ：博士生导师，关键矿产成矿与预测重点实验室副主任，国家优秀青年基金获得者、

       西部青年学者A类

通讯地址： 贵州省贵阳市观山湖区林城西路99号（550081）

E-mail：zhujingjing@mail.gyig.ac.cn

主要研究方向:

1. 斑岩铜矿成矿作用与预测

2．卡林型金矿成矿作用

3．火成岩岩石学及地球化学

简历：

学历

2003.09－2007.07 中国地质大学（北京），地质学，获理学学士学位

2007.09－2012.05 中国科学院地球化学研究所，矿床地球化学，获理学博士学位

工作经历

2024. 05-至今： 关键矿产成矿与预测重点实验室，副主任

2020. 01-至今： 中国科学院地球化学研究所研究员、博士生导师

2019. 01-2019.12：中国科学院地球化学研究所副研究员

2017.07－2018.12：加拿大劳伦森大学，博士后

2015.03－2017.06：加拿大阿尔伯塔大学，博士后

2013.09－2014.02：加拿大阿尔伯塔大学，访问学者

2012. 07－2015.03：中国科学院地球化学研究所助理研究员

承担科研项目情况：

作为负责人的主要科研项目：

1．国家自然科学基金委面上项目，71万，2017.1-2020.12

2. 国家自然科学基金委青年基金，25万，2014.1-2016.12

3. 国家973项目子课题，90万，2013.12-2018.12

4. 矿床地球化学国家重点实验室领域前沿重点项目，60万元，2018.1-2020.12

作为研究骨干参与的主要科研项目：

1.中国科学院科技先导B类项目，250万元，2016.1-2020.12

2.中国科学院“一带一路”创新团队项目，100万元，2019.1-2021.12

3.国家自然科学基金委重点基金项目，330万元，2019.10-2022.10

社会任职：

国际矿床成因协会（SEG）会员（member）

中国矿物岩石地球化学学会会员

获奖及荣誉：

中国科学院朱李月华优秀博士生奖（2012）

第十届全国矿床会议优秀学生报告奖（2010）

发表论文：

[1] Chen, X.-C., Zhao, C.-H., Zhu, J.-J., Wang, X.-S., and Cui, T., 2018, He, Ar, and S isotopic constraints on the relationship between A-type granites and tin mineralization: A case study of tin deposits in the Tengchong–Lianghe tin belt, southwest China: Ore Geology Reviews, v. 92, p. 416-429.

[2] Zhu, J.-J., Hu, R.-Z., Richards, J.P., Bi, X.-W., Stern, R., and Lu, G., 2017, No genetic link between Late Cretaceous felsic dikes and Carlin-type Au deposits in the Youjiang basin, Southwest China: Ore Geology Reviews, 10.1016/j.oregeorev.2017.01.014

[3] Zhu, J.-J., Zhong, H., Xie, G.Q., Zhao, C.H., Xu, L.L., and Lu, G., 2016, Origin and geological implication of the inherited zircon from felsic dikes, Youjiang basin, China: Acta Petrologica Sinica, v. 32, p. 3269–3280.

[4] Richards, J.P., Lopez, G.P., Zhu, J.-J., Creaser, R.A., Locock, A.J., and Mumin, A.H., 2017, Contrasting tectonic settings and sulfur contents of magmas associated with Cretaceous porphyry Cu-Au and intrusion-related iron oxide-Cu-Au deposits in northern Chile, Economic Geology, in press.

[5] Qi, Y., Hu, R., Liu, S., Coulson, I. M., Qi, H., Tian, J., and Zhu, J., 2016, Petrogenesis and geodynamic setting of Early Cretaceous mafic–ultramafic intrusions, South China: A case study from the Gan–Hang tectonic belt: Lithos, v. 258, p. 149-162.

[6] Richards, J.P., López, G.P., Zhu, J.J., Creaser, R.A., Locock, A.J., and Munin. A.H., 2016, Contrasting tectonic settings and sulfur contents of magmas associated with Cretaceous porphyry Cu-Au and magmatic-hydrothermal iron oxide-Cu-Au deposits in northern Chile, Economic Geology, in press

[7] Pan, L.-C., Hu, R.-Z., Wang, X.-S., Bi, X.-W., Zhu, J.-J., and Li, C., 2016, Apatite trace element and halogen compositions as petrogenetic-metallogenic indicators: Examples from four granite plutons in the Sanjiang region, SW China: Lithos, v. 254–255, p. 118–130.

[8] Xu, L., Bi, X., Hu, R., Qi, Y., Tang, Y., Wang, X., and Zhu, J., 2016, Redox states and genesis of magmas associated with intra-continental porphyry Cu–Au mineralization within the Jinshajiang–Red River alkaline igneous belt, SW China: Ore Geology Reviews, v. 73, Part 2, p. 330–345.

[9] Zhu, J.-J., Hu, R., Richards, J. P., Bi, X., and Zhong, H., 2015, Genesis and Magmatic-Hydrothermal Evolution of the Yangla Skarn Cu Deposit, Southwest China: Economic Geology, v. 110, p. 631–652.

[10] Wang, R., Richards, J. P., Zhou, L.-m., Hou, Z.-q., Stern, R. A., Creaser, R. A., and Zhu, J.-J., 2015, The role of Indian and Tibetan lithosphere in spatial distribution of Cenozoic magmatism and porphyry Cu–Mo deposits in the Gangdese belt, southern Tibet: Earth-Science Reviews, v. 150, p. 68–94.

[11] Chen, X.-C., Hu, R.-Z., Bi, X.-W., Zhong, H., Lan, J.-B., Zhao, C.-H., and Zhu, J.-J., 2015, Petrogenesis of metaluminous A-type granitoids in the Tengchong–Lianghe tin belt of southwestern China: Evidences from zircon U–Pb ages and Hf–O isotopes, and whole-rock Sr–Nd isotopes: Lithos, v. 212–215, p. 93–110.

[12] Chen, X.-C., Hu, R.-Z., Bi, X.-W., Li, H.-M., Lan, J.-B., Zhao, C.-H., and Zhu, J.-J., 2014, Cassiterite LA-MC-ICP-MS U/Pb and muscovite 40Ar/39Ar dating of tin deposits in the Tengchong-Lianghe tin district, NW Yunnan, China: Mineralium Deposita, v. 49, p. 843–860.

[13] Leng, C.-B., Huang, Q.-Y., Zhang, X.-C., Wang, S.-X., Zhong, H., Hu, R.-Z., Bi, X.-W., Zhu, J.-J., and Wang, X.-S., 2014, Petrogenesis of the Late Triassic volcanic rocks in the Southern Yidun arc, SW China: constraints from the geochronology, geochemistry, and Sr–Nd–Pb–Hf isotopes: Lithos, v. 190, p. 363–382.

[14] Wu, L.Y., Hu, R.Z., Qi, Y.Q., and Zhu J.J., 2013, Zircon LA-ICP-MS U-Pb ages and geochemical characteristics of quartz syenite porphyry from Jintonghu deposit in Zijinshan ore field, Fujian Province, South China: Acta Petrologica Sinica, v. 29, p. 4151–4166.

[15] Wang, J., Wen, H., Fan, H., and Zhu, J., 2012, Sm-Nd geochronology, REE geochemistry and C and O isotope characteristics of calcites and stibnites from the Banian antimony deposit, Guizhou Province, China: Geochemical Journal, v. 46, p. 393–407.

[16] Yin, R., Feng, X., Li, Z., Zhang, Q., Bi, X., Li, G., Liu, J., Zhu, J., and Wang, J., 2012, Metallogeny and environmental impact of Hg in Zn deposits in China: Applied geochemistry, v. 27, p. 151–160.

[17] Zhu, J.-J., Hu, R.-Z., Bi, X.-W., Zhong, H., and Chen, H., 2011, Zircon U–Pb ages, Hf–O isotopes and whole-rock Sr–Nd–Pb isotopic geochemistry of granitoids in the Jinshajiang suture zone, SW China: Constraints on petrogenesis and tectonic evolution of the Paleo-Tethys Ocean: Lithos, v. 126, p. 248–264.

[18] Zhu, J.-J., Hu, R.-Z., Bi, X.-W., Zhong, H., Chen, H., Ye, L., and Long, F., 2011, Genesis and tectonic significance of granites in the Yangla ore district, northwestern Yunnan Province: Acta Petrologica Sinica, v. 27, p. 2553–2566.

[19] Zhu, J.-J., Richards, J.P., Rees, C., Creaser, R., DuFrane, A., Locock, A., Petrus, J. A., and Lang, J., 2018, Elevated magmatic sulfur and chlorine contents: critical factors controlling the formation of the Red Chris porphyry Cu-Au deposit, Northern British Columbia, Canada: Economic Geology, v. 113, no. 5, p. 1047-1075.

[20] Zhu, J.-J., Hu, R.Z., Bi, X.W., Hollings, P., Leng, C.B., Pan, L.C., and Wang, D.Z, Reduced Paleo-Tethyan arc magmas and oxidized Pulang porphyry in the Sanjiang region, SW China: geochemical differences and implication for porphyry copper formation, submit to Economic Geology.

[21] Xu, Y., Zhu, J. J., Hu, R. Z., Bi, X. W., Yu, H. J., Xu, L. L., Liu, B. H., Huang, M. L., and Sheng, X. Y., 2019, Heterogeneous lithospheric mantle beneath the southeastern Tibetan Plateau: Evidence from Cenozoic high-Mg potassic volcanic rocks in the Jinshajiang-Ailaoshan Cenozoic magmatic belt: Journal of Asian Earth Sciences, v. 180

[22] Li, J.-X., Hu, R.-Z., Zhao, C.-H., Zhu, J.-J., Huang, Y., Gao, W., Li, J.-W., and Zhuo, Y.-Z., 2019, Sulfur isotope and trace element compositions of pyrite determined by NanoSIMS and LA-ICP-MS: new constraints on the genesis of the Shuiyindong Carlin-like gold deposit in SW China: Mineralium Deposita.

[23] Huang, M.-L., Bi, X.-W., Richards, J. P., Hu, R.-Z., Xu, L.-L., Gao, J.-F., Zhu, J.-J., and Zhang, X.-C., 2019, High water contents of magmas and extensive fluid exsolution during the formation of the Yulong porphyry Cu-Mo deposit, eastern Tibet: Journal of Asian Earth Sciences, v. 176, p. 168-183.

[24] Huang, M. L., Bi, X. W., Hu, R. Z., Gao, J. F., Xu, L. L., Zhu, J. J., and Shang, L. B., 2019, Geochemistry, in-situ Sr-Nd-Hf-O isotopes, and mineralogical constraints on origin and magmatic-hydrothermal evolution of the Yulong porphyry Cu–Mo deposit, Eastern Tibet: Gondwana Research, v. 76, p. 98-114.