General
陈华勇 男 土家族 广州地球化学研究所
Email: huayongchen@gig.ac.cn
Telephone: 020-85292708
Address: 广州天河区科华街511号
Postcode: 510640

Research Areas

Ore deposit models and application for exploration

Education

1994-1998 Peking University

1998-2001 Peking University Master

2001-2008 Queen's University Ph.D.

Experience

2008-2012 University of Tasmania Research Fellow 

2012-present GIG-CAS Professor

Publications

陈华勇期刊论文目录(by 2018.12

 

1.         李建平, 陈华勇*, 苏龙, 肖兵, 王云峰. 2018. 斑岩型铜矿床高-中温蚀变过程实验研究及其地质意义. 中国科学: 地球科学, 48: doi: 10.1360/N072018-00113

2.         梁培, 陈华勇*, 吴超, 刘振江, 东准噶尔北缘老山口铁--金矿床古生代岩浆岩锆石U-Pb年代学、氧逸度特征及地质意义. 地学前缘10.13745/j.esf.sf.2018.4.2.

3.         Li J, Chen H*, Su L, Xiao B, Wang Y. 2018. Experimental study of high to intermediate temperature alteration in porphyry copper systems and geological implications. Science China Earth Sciences, 61, https://doi.org/10.1007/s11430-018-9295-1

4.         Chen, H.Y., Wan, B., Pirajno, F., Chen, Y.J., Xiao, B., 2018. Metallogenesis of the Xinjiang Orogens, NW China - New Discoveries and Ore Genesis. Ore Geology Reviews 100: 1–11.

5.         Fang, J., Zhang, L., Chen, H.Y., Zheng, Y., Li, D.F., Wang, C.M., Shen, D.L., 2018. Genesis of the Weibao banded skarn Pb-Zn deposit, Qimantagh, Xinjiang: Insights from skarn mineralogy and muscovite 40Ar-39Ar dating. Ore Geology Reviews 100: 483–503.

6.         Han, J.S., Chu G.B, Chen, H.Y.*, Hollings, P., Sun, S.Q., Chen, M., 2018. Hydrothermal alteration and short wavelength infrared (SWIR) characteristics of the Tongshankou porphyry-skarn Cu-Mo deposit, Yangtze craton, Eastern China. Ore Geology Reviews 101:143-164.

7.         Jiang, H.J., Han, J.S., Chen, H.Y., Zheng, Y., Zhang, W.F., Lu, W.J., Deng, G., Tan, Z.X., 2018. Hydrothermal alteration, fluid inclusions and stable isotope characteristics of the Shaquanzi Fe–Cu deposit, Eastern Tianshan: Implications for deposit type and metallogenesis. Ore Geology Reviews 100: 385–400.

8.         Li, D.F., Chen, H.Y.*, Hollings, P., Zhang, L., Sun, X.M., Lu, W.J., Wang, C.M., Fang, J., 2018. Isotopic footprints of the giant Precambrian Caixiashan Zn-Pb mineralization system. Precambrian Research 305: 79–90.

9.         Li, R.C., Chen, H.Y.*, Xia, X.P., Yang, Q., Danyushevsky, L.V., Lai, C., 2018. Using integrated in-situ sulfide trace element geochemistry and sulfur isotopes to trace ore-forming fluids: Example from the Mina Justa IOCG deposit (southern Perú). Ore Geology Reviews 101: 165–179.

10.      Liang, P., Chen, H.Y.*, Wu, C., Zhang, W.F., Xu, D., Xia, X.P., Liu, Z.J., Zhang, Z.J., 2018. Mineralization and ore genesis of the Qiaoxiahala Fe-Cu-(Au) deposit in the northern margin of East Junggar terrane, Central Asian Orogenic Belt: Constraints from fluid inclusions and stable isotopes. Ore Geology Reviews 100: 360–384.

11.      Lu, W.J., Zhang, L., Chen, H.Y., Han, J.S., Jiang, H.J., Li, D.F., Fang, J., Wang, C.M., Zheng, Y., Tan, Z.X., 2018. Geology, fluid inclusion and isotope geochemistry of the Hongyuan reworked sediment-hosted Zn–Pb deposit: Metallogenic implications for Zn–Pb deposits in the Eastern Tianshan, NW China. Ore Geology Reviews 100: 504–533.

12.      Huang, J.H., Chen, H.Y.*, Han, J.S., Deng, X.H., Lu, W.J., Zhu, R.L., 2018. Alteration zonation and short wavelength infrared (SWIR) characteristics of the Honghai VMS Cu-Zn deposit, Eastern Tianshan, NW China. Ore Geology Reviews 100: 263–279.

13.      Wang, C.M., Zhang, L., Chen, H.Y., Tang, H.S., Chen, Y.J., Dong, L.H., Qu, X., Zheng, Y., Li, D.F., Fang, J., 2018. Geochronology, geochemistry and tectonic significance of the ore-associated granites at the Kaladawan Fe–Mo ore field (Altyn), NW China. Ore Geology Reviews 100: 457–470.

14.      Wang, Y.F., Chen, H.Y.*, Xiao, B., Han, J.S., Fang, J., Yang, J.T., Jourdan, F., 2018. Overprinting mineralization in the Paleozoic Yandong porphyry copper deposit, Eastern Tianshan, NW China—Evidence from geology, fluid inclusions and geochronology. Ore Geology Reviews 100: 148–167.

15.      Wu, C., Chen, H.Y.*, Liang, P., Han, J.S., Liu, Z.J., Fang, J., Xu, D.R., 2018. Paragenesis and fluid evolution of the Halasu III porphyry Cu deposit, East Junggar (NW China): Implications for the Paleozoic multiphase superimposing mineralization in the Central Asian Orogenic Belt. Ore Geology Reviews. 100: 183-204.

16.      Xiao, B., Chen, H.Y.*, Wang, Y.F., Han, J.S., Xu, C., Yang, J.T., 2018. Chlorite and epidote chemistry of the Yandong Cu deposit, NW China: Metallogenic and exploration implications for Paleozoic porphyry Cu systems in the Eastern Tianshan. Ore Geology Reviews 100: 168–182.

17.      Zhang, L., Chen, H.Y.*, Liu, C.F., Zheng, Y., 2018. Ore genesis of the Saridala gold deposit, Western Tianshan, NW China: Constraints from fluid inclusion, S-Pb isotopes and 40Ar/39Ar dating. Ore Geology Reviews 100: 63–76.

18.      Zhang, W.F., Chen, H.Y*., Peng, L.H., Zhao, L.D., Huang, J.H., Lu, W.J., Liang, P., Lai, C., 2018 Discriminating hydrothermal fluid sources using tourmaline boron isotopes: Example from Bailingshan Fe deposit in the Eastern Tianshan, NW China. Ore Geology Reviews. 98: 28-37.

19.      Zhang, W.F., Chen, H.Y.*, Peng, L.H., Zhao, L.D., Lu, W.J., Zhang, Z.J., Yang, J.T., Sun, J., 2018. Ore genesis of the Duotoushan Fe-Cu deposit, Eastern Tianshan, NW China: Constraints from ore geology, mineral geochemistry, fluid inclusion and stable isotopes. Ore Geology Reviews 100: 401–421.

20.      Zhang, Y., Shao, Y.J., Zhang, R.Q., Li, D.F., Liu, Z.F., Chen, H.Y.*, 2018. Dating Ore Deposit Using Garnet U–Pb Geochronology: Example from the Xinqiao Cu–S–Fe–Au Deposit, Eastern China. Minerals 8(1): 31.

21.      Zhang, Y., Shao, Y.J., Liu, Q.Q., Chen, H.Y., Quan, W., Sun, A.X., 2018. Jurassic magmatism and metallogeny in the eastern Qin-Hang Metallogenic Belt, SE China: An example from the Yongping Cu deposit. Journal of Geochemical Exploration 186: 281-297.

22.      Zhao, L.D., Chen, H.Y.*, Zhang, L., Li, D.F., Zhang, W.F., Wang, C.M., Yang, J.T., Yan, X.L., 2018. Magnetite geochemistry of the Heijianshan Fe–Cu (–Au) deposit in Eastern Tianshan: Metallogenic implications for submarine volcanic-hosted Fe–Cu deposits in NW China. Ore Geology Reviews. 100: 422–440.

23.      Zhao, L.D., Chen, H.Y.*, Zhang, L., Zhang, W.F., Yang, J.T., Yan, X.L., 2018. The Late Paleozoic magmatic evolution of the Aqishan-Yamansu belt, Eastern Tianshan: Constraints from geochronology, geochemistry and Sr–Nd–Pb–Hf isotopes of igneous rocks. Journal of Asian Earth Sciences 153: 170–192.

24.      龚林, 陈华勇*, 肖兵, 王云峰, 赵联党, 2018. 新疆赤湖-福兴铜矿区角闪石矿物化学特征及其地质意义. 地球化学 47(2): 149168.

25.      龚林, 陈华勇*, 王云峰, 赵联党, 肖兵, 2018. 新疆玉海-三岔口铜矿黑云母矿物化学特征及成岩成矿意义. 地球科学43(9): 29292942.

26.      张世涛, 陈华勇*, 韩金生, , 初高彬, 魏克涛, 赵逸君, 程佳敏, 田京. 鄂东南铜绿山大型铜铁金矿床成矿岩体年代学、地球化学特征及成矿意义. 地球化学, 2018, 47(3): 240256.

27.      张维峰, 陈华勇*, 王云峰, 赵联党, 陆万俭, 2018. 东天山地区多头山铁铜矿床磁铁矿化学成分及其对成矿流体演化的指示. 地球科学43(9): 29873000.

28.      Duan, G., Chen, H.Y.*, Holings, P., Qi, J.P., Xu, C., Zhang, S., Xiao, B., Liu, G.Y., Liu, J.M., 2017. The Mesozoic magmatic sources and tectonic setting of the Zijinshan mineral field, South China: Constraints from geochronology and geochemistry of igneous rocks in the Southeastern Ore Segment. Ore Geology Reviews 80 (2): 800-827

29.      Xia Hu, Huayong Chen*, Liandang Zhao, Jinsheng Han, Xiaoping Xia, 2017, Magnetite geochemistry of the Longqiao and Tieshan Fe–(Cu) deposits in the Middle-Lower Yangtze River Belt: Implications for deposit type and ore genesis. Ore Geology Reviews 89 (2): 822-835

30.      Li, D.F., Chen, H.Y.*, Zhang, L., Fralick, P., Hollings, P., Mi, M., Lu, W.J., Han, J.S., Wang, C.M., Fang, J., 2017. Geochemistry of fine-grained clastic rocks in the Mesoproterozoic Kawabulake Group: implications for provenance and the tectonic model of the Eastern Tianshan, Xinjiang, NW China. International Journal of Earth Sciences 106(1), p. 115–129

31.      Li, R.C., Chen, H.Y.*, Xia, X.P., Yang, Q., Li, L., Xu, J., Huang, C., Danyushevsky, L.V., 2017. Ore fluid evolution in the giant Marcona Fe-(Cu) deposit, Perú: Evidence from in-situ sulfur isotope and trace element geochemistry of sulfides. Ore Geology Reviews 86: 624–638.

32.      Jiang, H.J., Han, J.S., Chen, H.Y., Zheng, Y., Lu, W.J., Deng, G., Tan, Z.X., 2017. Intra-continental back-arc basin inversion and Late Carboniferous magmatism in Eastern Tianshan, NW China: Constraints from the Shaquanzi magmatic suite. Geoscience Frontiers 8(6): 1447–1467.

33.      Lu, W.J., Chen, H.Y.*, Zhang, L., Han, J.S., Xiao, B., Li, D.F., Zhang, W.F., Wang, C.M., Zhao, L.D., Jiang, H.J., 2017. Age and geochemistry of the intrusive rocks from the Shaquanzi-Hongyuan Pb–Zn mineral district: Implications for the Late Carboniferous tectonic setting and Pb–Zn mineralization in the Eastern Tianshan, NW China. Lithos 294-295: 97–111.

34.      Wang, Y.F., Chen, H.Y.*, Han, J.S., Chen, S.B., Huang, B.Q., Li, C., Tian, Q.L., Wang, C., Wu, J.X., Chen, M.X., 2017. Paleozoic tectonic evolution of the Dananhu-Tousuquan island arc belt, Eastern Tianshan: Constraints from the magmatism of the Yuhai porphyry Cu deposit, Xinjiang, NW China. Journal of Asian Earth Sciences 153: 282–306.

35.      Chengming Wang, Li Zhang, Haoshu Tang, Huayong Chen, Xiliang Li, Yi Zheng, Dengfeng Li, Jing Fang, Lianhui Dong,Xun Qu, Genesis of the Kaladawan Fe–Mo ore field in Altyn, Xinjiang, China:Constraints from mineralogy and geochemistry, Ore Geology Reviews, 2017, 81(2): 587–601

36.      Xiao B., Chen H.Y*, Hollings P., Han J.S., Wang Y.F., Yang J.T., and Cai K.D., 2017, Magmatic Evolution of the Tuwu-Yandong Porphyry Cu Belt, NW China: Constraints from Geochronology, Geochemistry and Sr-Nd-Hf isotopes, Gondwana Research 437491

37.      Xu, C., Chen, H.Y.*, Huang, W.T., Qi, J.P., Duan, G., Zhang, L.J., Wu, C., Zhang, S., Zhong, W.B., 2017. Mesozoic multiphase magmatism at the Xinan Cu–Mo ore deposit (Zijinshan Orefield): Geodynamic setting and metallogenic implications. Ore Geology Reviews. 88768-790

38.      Zhao, L.D., Chen, H.Y.*, Zhang, L., Xia, X.P., Zhang, W.F., Li, D.F., Lu, W.J., Liang, P., Li, R.C., Yang, J.T., Yan, X.L., 2017. Geology and ore genesis of the late Paleozoic Heijianshan Fe oxide–Cu (–Au) deposit in the Eastern Tianshan, NW China. Ore Geology Reviews 91(Supplement C): 110–132.

39.      Zhang, Y., Shao, Y.j., Wu, C.D., Chen, H.Y., 2017. LA-ICP-MS trace element geochemistry of garnets: Constraints on hydrothermal fluid evolution and genesis of the Xinqiao Cu–S–Fe–Au deposit, eastern China. Ore Geology Reviews 86: 426-439.

40.      Zhang, Y., Shao, Y.J., Chen, H.Y., Liu, Z.F., Li, D.F., 2017. A hydrothermal origin for the large Xinqiao Cu-S-Fe deposit, Eastern China: Evidence from sulfide geochemistry and sulfur isotopes. Ore Geology Reviews 88: 534-549.

41.      Zheng, Y., Chen, Y.j., Cawood, P.A., Wang, Y.J., Chen, H.Y., Zhang, L., Li, D.F., 2017. Late Permian–Triassic metallogeny in the Chinese Altay Orogen: Constraints from mica 40Ar/39Ar dating on ore deposits. Gondwana Research 43: 4–16.

42.      许超,陈华勇*Noel WHITE,祁进平,张乐骏,张爽,段甘,2017,福建紫金山矿田西南铜钼矿段蚀变矿化及SWIR勘查应用研究:矿床地质,36(5)1013-1038

43.      张世涛, 陈华勇*, 张小波, 张维峰, , 韩金生, 陈觅. 短波红外光谱技术在矽卡岩型矿床中的应用—以鄂东南铜绿山铜铁金矿床为例. 矿床地质, 2017, 36(6): 12631288.

44.      张维峰, 陈华勇*, 江宏君, 陆万俭, 梁培, 许超, 严学录, 杨俊弢, 2017. 新疆东天山多头山铁-铜矿区花岗岩类的年代学、地球化学、岩石成因及意义. 大地构造与成矿学 41(6): 11711191.

45.      赵联党,陈华勇*,张莉,张增杰,李登峰,张维峰,陆万俭,杨骏弢,闫学录,2017,新疆黑尖山Fe-Cu-Au)矿床H-O同位素特征及其地质意义:矿床地质. 36(1): 38–56.

46.      Li, D.F., Chen, H.Y.*, Hollings, P., Zhang, L., Mi, M., Li, J., Fang, J., Wang, C.M., Lu, W.J., 2016. Re-Os pyrite geochronology of Zn-Pb mineralization in the giant Caixiashan deposit, NW China. Mineralium Deposita 51(3): 309-317.

47.      Liang, P., Chen, H.Y.*, Hollings, P., Wu, C., Xiao, B., Bao, Z.W., Xu, D.R., 2016. Geochronology and Geochemistry of Igneous Rocks from the Laoshankou District, North Xinjiang: Implications for the Late Paleozoic Tectonic Evolution and Metallogenesis of East Junggar. Lithos 266267: 115-132.

48.      Zhang W.F., Chen H.Y.*, Han J.S., Zhao L.D., Huang J.H., Yang J.T., and Yan X.L., 2016, Geochronology and geochemistry of igneous rocks in the Bailingshan area: Implications for the tectonic setting of late Paleozoic magmatism and iron skarn mineralization in the eastern Tianshan, NW China. Gondwana Research 38: 40-59

49.      Li, D.F., Chen, H.Y.*, Zhang, L., Hollings, P., Chen, Y.J., Lu, W.J., Zheng, Y., Wang, C.M., Fang, J., Chen, G., Zhou, G., 2016. Ore geology and fluid evolution of the giant Caixiashan carbonate-hosted Zn–Pb deposit in the Eastern Tianshan, NW China. Ore Geology Reviews 72 (1): 355-372.

50.      Liang, P., Chen, H.Y.*, Hollings, P., Xiao, B., Wu, C., Bao, Z.W., Cai, K.D., 2016. The Paleozoic tectonic evolution and metallogenesis of the northern margin of East Junggar, Central Asia Orogenic Belt: Geochronological and geochemical constraints from igneous rocks of the Qiaoxiahala Fe-Cu deposit. Journal of Asian Earth Sciences 130: 23-45.

51.      肖兵,陈华勇*,王云峰,杨俊弢,2016,东天山土屋-延东铜矿带石英钠长斑岩与辉钼矿形成年龄及其重要意义:大地构造与成矿学. 41(1): 145156.

52.      梁培, 陈华勇*, 韩金生, 吴超, 张维峰, 赵联党, 王云峰;2016,东准噶尔北缘早石炭世构造体制转变:来自碱性花岗岩年代学与地球化学证据,大地构造与成矿学. 41(1): 202221.

53.      胡霞, 陈华勇*, 韩金生, 赵联党, 2016. 智利卡门铁矿床磁铁矿元素地球化学特征及矿床成因意义. 地球化学 45(4): 387-397.

54.      黄健瀚,陈华勇*,韩金生,陆万俭,张维峰,2016,新疆东天山卡拉塔格红海VMS铜锌矿床蚀变与矿化时空分布特征:地球化学,v. 45(6), p. 582-560

55.      王云峰, 陈华勇*, 肖兵, 韩金生, 杨俊弢, 2016. 新疆东天山地区土屋和延东铜矿床斑岩-叠加改造成矿作用. 矿床地质 35(1): 51-68.

56.      江宏君, 陈华勇*, 韩金生, 张维峰, 陆万俭, 2016. 东天山沙泉子铁铜矿床矿物学特征及其成矿意义. 地球化学 45(4): 329-355.

57.      Yao, J.M., Mathur, R., Sun, W.D., Song, W.L., Chen, H.Y., Mutti, L., Xiang, X.K., Luo, X.H., 2016. Fractionation of Cu and Mo isotopes caused by vaporliquid partitioning, evidence from the Dahutang WCuMo ore field. Geochemistry, Geophysics, Geosystems 17(5): 1725-1739.

58.      Yi Zheng, Yuejun Wang, Huayong Chen, Zhenwen Lin, Weisheng Hou, Dengfeng Li, Micro-textural and fluidinclusion data constraints on metallic remobilization of the Ashele VMS Cu-Zn deposit, Altay, NW China, Journal of Geochemical Exploration, 2016, 171: 113–123

59.      Cai, KD, Sun, M; Jahn, BM, Xiao, WJ, Long, XP, Chen, HY, Xia, XP, Chen, M, Wang, XS, Petrogenesis of the Permian Intermediate-Mafic Dikes in the Chinese Altai, Northwest China: Implication for a Postaccretion Extensional Scenario, Journal of Geology, 2016, 124(4): 481-500

60.      Cai, KD, Sun, M, Buslov, MM, Jahn, BM, Xiao, WJ, Long, XP, Chen, HY, Wan, B, Chen, M, Rubanova, ES, Kulikova, AV, Voytishek, EE, Crustal nature and origin of the Russian Altai: Implications for the continental evolution and growth of the Central Asian Orogenic Belt (CAOB), Tectonophysics, 2016, 674: 182-194

61.      Fu, LB, Wei, JH, Chen, HY, Bagas, L, Tan, J, Li, H, Zhang, DH, Tian, N, The relationship between gold mineralization, exhumation of metamorphic core complex and magma cooling: Formation of the Anjiayingzi Au deposit, northern North China Craton, Ore Geology Reviews, 2016, 73: 222-240

62.      Xu, DR, Wu, CJ, Hu, GC, Chen, ML, Fu, YR, Wang, ZL, Chen, HY, Hollings, P, Late Mesozoic molybdenum mineralization on Hainan Island, South China: Geochemistry, geochronology and geodynamic setting, Ore Geology Reviews, 2016, 72: 402-433

63.      Wang, ZL, Xu, DR, Hu, GC, Yu, LL, Wu, CJ, Zhang, ZC, Cai, JX, Shan, Q, Hou, MZ, Chen, HY, Detrital zircon U-Pb ages of the Proterozoic metaclastic-sedimentary rocks in Hainan Province of South China: New constraints on the depositional time, source area, and tectonic setting of the Shilu Fe-Co-Cu ore district, 2015, Journal of Asian Earth Sciences, 113, 1143-1161

64.      陈华勇,韩金生,2015,磁铁矿单矿物研究现状、存在问题和研究方向:矿物岩石地球化学通报, v. 34 (4), p.724-730

65.      肖兵,陈华勇*,王云峰,杨俊弢,2015,东天山土屋延东铜矿矿区晚志留世岩体的发现及构造意义:地学前缘, v. 22 (6), p.251-266

66.      Yao J.M., Chen H.Y.*, Tian Y.C., Song W.L., Zhu S.Y., 2015, Three-dimensional imaging of a single fluid inclusion in sphalerite by nano X-ray tomography: Ore Geology Reviews, v. 71, p.116-120

67.      Wu C., Chen H.Y.*, Hollings P., Xu D.R., Liang P., Han J.S., Xiao B., Cai K.D., Liu Z.J., Qi Y.K., 2015, Magmatic sequences in the Halasu Cu Belt, NW China: Trigger for the Paleozoic Porphyry Cu Mineralization in the Chinese Altay-East Junggar: Ore Geology Reviews, v. 71, p.373-404

68.      Han, J.S., Chen, H.Y., Yao, J.M., Deng, X.H., 2015, 2.24 Ga mafic dykes from Taihua Complex, southern Trans-North China Orogen, and their tectonic implications: Precambrian Research, v. 270, p. 124-138

69.      Li, D.F., Zhang, L., Chen, H.Y., Hollings, P., Cao, M.J., Fang, J., Wang, C.M., Lu, W.J., 2015, Geochronology and geochemistry of the high Mg dioritic dikes in Eastern Tianshan, NW China: geochemical features, petrogenesis and tectonic implications. Journal of Asian Earth Sciences, v. 115, p. 442-454

70.      Fang J., Chen H.Y., Zhang, L., Zheng, Y., Li, D.F., Wang, C., Shen, D., 2015, Ore genesis of the Weibao lead–zinc district, Eastern Kunlun Orogen, China: constrains from ore geology, fluid inclusion and isotope geochemistry: International Journal of Earth Sciences, V.104, p.1209-1233

71.      Wilkinson, J.J., Chang, Z.S., Cooke, D.R., Baker, M.J., Wilkinson, C.C., Inglis, S., Chen, H.Y. and Bruce Gemmell, J., 2015. The chlorite proximitor: A new tool for detecting porphyry ore deposits. Journal of Geochemical Exploration, 152: 10-26

72.      Cai, K.D, Sun, M., Jahn, B.M. Xiao, W.J., Yuan, C., Long, X.P., Chen, H.Y., Tumurkhuu, D., 2015, A synthesis of zircon U-Pb ages and Hf isotopic compositions of granitoids from Southwest Mongolia: Implications for crustal nature and tectonic evolution of the Altai Superterrane. Lithos, 232: 131-142

73.      Xu, D.R., Kusiak, M.A., Wang, Z.L., Chen, H.Y., Bakun-Czubarow, N., Wu, C.J., Konecný, P., Hollings, P., 2015, Microstructural observation and chemical dating on monazite from the Shilu Group, Hainan Province of South China: Implications for origin and evolution of the Shilu Fe-Co-Cu ore district, Lithos, 216: 158-177

74.      陈华勇, 肖兵, 2014, 俯冲边界成矿作用研究进展及若干问题: 地学前缘, v. 21(5), p. 13-22

75.      Zhang, Z.J., Chen, H.Y. *, Hu, Y.M., Zhang, J., and Li, D.F., 2014, Isotopic geochemistry of the Jinwozi gold deposit in the eastern Tianshan orogen, NW China: implications for the ore genesis: Geological Journal, v. 49(6), p. 574-583

76.      Zhang, L, Chen, H.Y.*, Zheng, Y., Qin, Y.J., and Li, D.F., 2014, Geology, fluid inclusion and age constraints on the genesis of the Sarekuobu gold deposit in Altay, NW China: Geological Journal, v. 49(6), p. 635-648

77.      李艳军, 魏俊浩, 陈华勇, , , 侯本俊,2014,义敦岛弧带夏塞早白垩世A型花岗岩成因: 锆石U-Pb年代学、地球化学及Hf同位素制约:大地构造与成矿学, v. 38(4), p. 939-953

78.      郑义,李登峰,张莉,陈华勇,2014,新疆萨热阔布金矿黑云母40Ar/39Ar年龄及矿床成因启示:中山大学学报(自然科学版), v. 536, p. 10-18

79.      Han, J.S., Yao, J.M., Chen, H.Y., Deng, X.H., and Ding, J.Y., 2014, Fluid inclusion and stable isotope study of the Shagou Ag–Pb–Zn deposit, Luoning, Henan province, China: Implications for the genesis of an orogenic lode Ag–Pb–Zn system: Ore Geology Reviews, v. 62, p. 199-210

80.      Li, D.F., Zhang, L., Chen, H.Y., Zheng, Y., Hollings, P., Wang, C.M., and Fang, J., 2014, Ore genesis of the unusual Talate Pb–Zn(–Fe) skarn-type deposit, Altay, NW China: constraints from geology, geochemistry and geochronology: Geological Journal, v. 49(6), p. 599-616

81.      Xu, D.R., Wang, Z.L., Chen, H.Y., Hollings,P., Jansen, N. H., Zhang, Z.C., and Wu C.J., 2014, Petrography and geochemistry of the Shilu Fe–Co–Cu ore district, South China: Implications for the origin of a Neoproterozoic BIF system: Ore Geology Reviews, v. 57, p. 322-350

82.      Yang, W.B., Niu, H.C., Shan, Q., Chen, H.Y., Hollings, P., Li, N.B., Yan, S., and Zartman, R. E., 2014, Geochemistry of primary-carbonate bearing K-rich igneous rocks in the Awulale Mountains, western Tianshan: Implications for carbon-recycling in subduction zone: Geochimica et Cosmochimica Acta, v. 143, p. 143-164

83.      Zhang, S., Yang, D., Li, F.L., Chen, H.Y., Bao, Z.Y., Huang, B., Zou, D.F., Yang, J., 2014, Determination of regional soil geochemical baselines for trace metals with principal component regression: A case study in the Jianghan plain, China: Applied Geochemistry, v. 48, p. 193-206

84.      Zhang, D.H., Wei, J.H., Fu, L.B., Chen, H.Y., Tan, J., Li, Y.J., Shi, W.J., and Tian, N., 2014, Formation of the Jurassic Changboshan-Xieniqishan highly fractionated I-type granites, northeastern China: implication for the partial melting of juvenile crust induced by asthenospheric mantle upwelling: Geological Journal, 50(2): 122-138

85.      Zhang, J., Deng, J., Chen, H.Y., Yang, L.Q., Cooke, D., Danyushevsky, L., and Gong, Q.J., 2014, LA-ICP-MS trace element analysis of pyrite from the Chang'an gold deposit, Sanjiang region, China: Implication for ore-forming process: Gondwana Research, v. 26(2), p. 557-575

86.      Zheng, Y., Zhang, L., Chen, H.Y., Li, D.F., Wang, C.M., and Fang, J., 2014, CO2-rich fluid from metamorphic devolatilization of Triassic Orogeny: an example from the Qiaxia copper deposit in Altay, NW China: Geological Journal, v. 49(6), p. 617-634

87.      Chen, YJ, Santosh, M, Somerville, I, Chen, HY, 2014, Indosinian tectonics and mineral systems in China: an introduction: Geological Journal, v. 49(4-5), p. 331-337

88.      Chen, H.Y., 2013, External sulphur in IOCG mineralization: Implications on definition and classificationof the IOCG clan: Ore Geology Reviews, v. 51, p. 74-78

89.      Chen, H.Y., Cooke, D.R., and Baker, M.J., 2013, Mesozoic Iron Oxide Copper-Gold Mineralization in the Central Andes and the Gondwana Supercontinent Breakup: Economic Geology, v. 108(1), p. 37-44

90.      陈华勇, 张莉, 李登峰, 张增杰, 2013, 南天山萨瓦亚尔顿金矿床稀土微量元素特征及其成因意义: 岩石学报, v. 29 (1), p. 159-166

91.      Zheng, Y., Zhang, L., Chen, Y.J., Hollings, P., and Chen, H.Y.*, 2013, Metamorphosed Pb–Zn–(Ag) ores of the Keketale VMS deposit, NW China: Evidence from ore textures, fluid inclusions, geochronology and pyrite compositions: Ore Geology Reviews, v. 54, p. 167-180

92.      Xu, D.R., Wang, Z.L., Cai, J.X., Wu, C.J., Bakun-Czubarow, N., Wang, L., Chen, H.Y., Baker, M.J., and Kusiak, M.A., 2013, Geological characteristics and metallogenesis of the Shilu Fe-ore deposit in Hainan Province, South China: Ore Geology Reviews, v. 53, p. 318-342

93.      Zhang, J., Chen, Y.J., Pirajno, F., Deng, J., Chen, H.Y., and Wang, C.M., 2013, Geology, C-H-O-S-Pb isotope systematics and geochronology of the Yindongpo gold deposit, Tongbai Mountains, central China: Implication for ore genesis: Ore Geology Reviews, v. 53, p. 343-356

94.      Chen, H.Y., Chen, Y.J., and Baker, M., 2012, Isotopic geochemistry of the Sawayaerdun orogenic-type gold deposit, Tianshan, northwest China: Implications for ore genesis and mineral exploration: Chemical Geology, v. 310-311(5), p. 1-11

95.      Chen, H.Y., Chen, Y.J., and Baker, M., 2012, Evolution of ore-forming fluids in the Sawayaerdun gold deposit in the Southwestern Chinese Tianshan metallogenic belt, Northwest China: Journal of Asian Earth Sciences, v. 49, p. 131-144

96.      Chen, H.Y., Yang, J.T., and Baker, M., 2012, Mineralization and fluid evolution of the Jiyuan polymetallic Cu-Ag-Pb-Zn-Au deposit, eastern Tianshan, NW China: International Geology Review, v. 54(7), p. 816-832

97.      Zhang, L., Chen, H.Y.*, Chen, Y.J., Qin, Y.J., Liu, C.F., Zheng, Y., and Jansen, N.H., 2012, Geology and fluid evolution of the Wangfeng orogenic-type gold deposit, Western Tian Shan, China: Ore Geology Reviews, v. 49, p. 85-95

98.      Li, Y.J., Wei, J.H., Chen, H.Y., Tan, J., Fu, L.B., and Wu, G., 2012, Origin of the Maoduan Pb-Zn-Mo deposit, eastern Cathaysia Block, China: geological, geochronological, geochemical and Sr-Nd-Pb-S isotopic constraints: Mineralium Deposita, v. 47, p. 763-780

99.      Fu, L.B., Wei, J.H., Kusky, T.M., Chen, H.Y., Tan, J., Li, Y.J., Shi, W.J., Chen, C., and Zhao, S.Q., 2012, The Cretaceous Duimiangou adakite-like intrusion from the Chifeng region, northern North China Craton: Crustal contamination of basaltic magma in an intracontinental extensional environment, Lithos, v. 134-135, p. 273-288

100.  Fu, L.B., Wei, J.H, Kusky. T.M., Chen, H.Y., Tan, J., Li, Y.J., Kong, L.J., and Jiang, Y.J., 2012, Triassic shoshonitic dykes from the northern North China craton: petrogenesis and geodynamic significance: Geological Magazine, v. 149(0), p. 39-55

101.  Chen, H.Y., Tian, W., Falloon, T.J., and Chen, M.M., 2011, Pyrite trace element geochemistry of mafic granulite xenoliths from Xikeer: implications for the source of Cu in the sediment-hosted mineralization of the northwest Tarim Basin (Northwest China): Mineralium Deposita, v.46, p. 1001-1006

102.  Chen, H.Y., Kyser, T.K., and Clark, A.H., 2011, Contrasted fluids and reservoirs in the contiguous Marcona and Mina Justa iron oxide-Cu (-Ag-Au) deposits, south-central Perú: Mineralium Deposita, v. 46, p. 677-706

103.  Chen, H.Y., 2011, Mesozoic IOCG mineralization in the Central Andes: an updated review, in Porter, T.M., ed., Hydrothermal iron oxide copper-gold and related deposits: A global perspective, v.3 – Advances in the Understanding of IOCG Deposits, PGC Publishing, Adelaide, p. 259-272. (invited paper)

104.  Chen, H.Y., Clark, A.H., and Kyser, T.K., 2010, The Marcona magnetite deposit, Ica, South-Central Peru: A product of hydrous, iron oxide-rich melt: Economic Geology, v. 105, p. 1441-1456

105.  Chen, H.Y., Clark, A.H., Kyser, T.K., Ullrich, T.D., Baxter, R., Chen, Y.M., and Moody, T.C., 2010, Evolution of the giant Marcona-Mina Justa iron oxide-copper-gold district, south-central Perú: Economic Geology, v. 105, p. 155-185

106.  张静, 陈衍景, 陈华勇, 张冠, 杨艳, 2008,河南桐柏围山城层控金银成矿带同位素地球化学: 地学前缘, v. 15 (4), p. 108-124

107.  陈华勇, 陈衍景, 倪培, 张莉, 张增杰, 2007, 新疆萨瓦亚尔顿金矿流体包裹体成分、矿床成因和成矿预测: 岩石学报, v.23 (9), p. 2189-2197

108.  Chen, Y.J., Chen, H.Y., Zaw, K., Pirajno, F., and Zhang, Z.J., 2007, Geodynamic settings and tectonic model of skarn gold deposits in China: an overview: Ore Geology Reviews, v. 31(1-4), p. 139-169

109.  张静, 陈衍景, 陈华勇, 万守全, 张冠, 王建明, 2006, 河南省桐柏县银洞坡金矿床同位素地球化学: 岩石学报,v. 22 (10), p. 2551-2560

110.  陈华勇, 陈衍景, 倪培, 张增杰, 2004, 南天山萨瓦亚尔顿金矿流体包裹体研究: 矿床成因和勘探意义: 矿物岩石,v. 24(3), p. 46-54

111.  陈衍景, 陈华勇, Zaw, K., Pirajno, F., 张增杰, 2004, 中国陆区大规模成矿的地球动力学: 以矽卡岩型金矿为例: 地学前缘, v. 11(1), P. 57-83

112.  陈衍景, 刘玉琳, 鲍景新, 张增杰, 陈华勇, 蔡文俊, Helmstaedt, H., 2004,西天山艾肯达坂组火山岩系同位素定年及其构造意义: 矿物岩石, v. 24(1), p. 52-55

113.  张增杰, 陈衍景, 陈华勇, 鲍景新, 刘玉琳, 2003, 天山海西期不同类型花岗岩类岩石化学特征及其地球动力学意义: 矿物岩石, v. 23(1), p.15-24

114.  Chen Y.J, Bao J.X., Zhang Z.J., Chen H.Y., and Liu Y.L., 2003, Laumontitization as an Exploration Indicator of Epithermal Gold Deposits: A Case Study of the Axi and Other Epithermal Systems in West Tianshan, China: Chinese Journal of Geochemistry, v. 22(4), p. 289-301

115.  鲍景新, 陈衍景, 张增杰, 陈华勇, 刘玉琳, 2002, 西天山阿希金矿浊沸石化与古地热成矿流体系统的初步研究: 北京大学学报(自然科学), v. 38(2), p. 252-259

116.  杨永, 陈华勇, 王耀光, 鲁颖淮, 高秀丽, 陈衍景, 王志光, 李国平, 2002, 银洞坡金矿流体包裹体研究: 矿床地质, v. 21(增刊), p. 1076-1079

117.  张增杰, 陈衍景, 陈华勇, 鲍景新, 2002, 新疆金窝子金矿流体包裹体研究: 矿床地质, p. 21(增刊), v. 1099-1101

118.  Chen, H.Y., Chen, Y.J., and Liu,Y.L., 2001, Metallogenesis of the Ertix gold belt, Xinjiang and its relationship to Central Asia-type orogenesis: Science in China (Series D), v. 44(3), p. 245-255

119.  陈华勇, 张增杰, 2001, 湘西北黑色岩系中矿产资源的综合利用:地质与勘探, v. 37(3), p. 32-35

120.  陈华勇, 2001, 镶嵌在地图上的珍珠—“国中之国”一览: 地图, v. 2, p.51-52

121.  陈华勇, 2001, 地图妙析一两例: 地图, v. 2, p. 55-58

122.  陈华勇, 张静, 2001, 纵横论地图: 地图, v.3, 56-58

123.  Chen, H.Y., Bao, J.X., Zhang, Z.J., Liu, Y.L., Ni, P., Ling, H.F., 2000, Isotopic indication to source of ore materials and fluids of the Wangfeng gold deposit in Tianshan: A case study of metallogenesis during collisional orogenesis: Science in China(Series D), v. 43 (supp), p. 156-166

124.  陈华勇, 陈衍景, 刘玉琳, 2000, 新疆额尔齐斯金矿带的成矿作用及其与中亚型造山作用的关系: 中国科学, v.30 (增刊), p. 38-44

125.  陈华勇, 鲍景新, 张增杰, 刘玉琳, 倪培, 凌洪飞, 2000, 新疆望峰金矿成矿物质和流体来源同位素示踪—碰撞造山成矿作用研究示例:中国科学, v. 30 (增刊), p. 45-52

126.  Chen,Y.J., Chen, H.Y., Liu,Y.L., Guo, G.J., Lai, Y., Qin, S., Huang, B.L., Zhang, Z.J., Sui, Y.H., Li, C., Li, Z., Li, P., Li, X., Wang, H.H., Zhu, M.X., Gao, X.L., and Wei, Q.Y., 2000, Progress and records in the study of endogenetic mineralization during collisional orogenesis, Chinese Science Bulletin, v. 45(1), p. 1-10

127.  Sui, Y.H., Wang, H.H., Gao, X.L., Chen, H.Y., and Li, Z., 2000, Ore fluids of the Tieluping silver deposit of Henan Province and its illustration of the tectonic model for collisional petrogenesis, metallogenesis and fluidization: Science in China(serial D), v. 43(supp), p. 108-121

128.  陈衍景, 刘丛强, 陈华勇, 张增杰, 李超, 2000, 中国北方石墨矿床及赋矿孔达岩系碳同位素特征及有关问题讨论: 岩石学报, v. 16(2), p. 233-244

129.  隋颖慧, 王海华, 高秀丽, 陈华勇, 李震, 2000, 河南铁炉坪银矿成矿流体研究及其对碰撞造山成岩成矿与流体作用模式例证: 中国科学, v. 30(增刊), p. 82-90

130.  陈衍景, 陈华勇, 刘玉琳, 郭光军, 赖勇, 秦善, 黄宝玲, 张增杰, 隋颖慧, 李超,李震, 李萍, 李欣, 王海华, 朱梅湘, 高秀丽, 魏倚英, 1999, 碰撞造山过程内生矿床成矿作用研究的历史和进展: 科学通报, v. 44, p. 1681-1689

131.  陈华勇, 刘玉林, 1998, 北疆金矿主要类型、成矿规律和找矿预测: 矿床地质, 17(增刊), p. 77-80

132.  陈衍景, 李欣, 靖军, 高秀丽, 陈华勇, 吴锡丹, 吴德华, 1998, 新疆望峰金矿成矿流体研究及其成因意义: 地球学报, v. 19(2), p. 195-203

 


Students

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张维峰  博士研究生  070901-矿物学、岩石学、矿床学  

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