联系我们 | 网站地图 | English | 中国科学院  
科研队伍
 您现在的位置:首页 > 研究员

姓名 郑国东 性别:
职称 研究员 学位 博士
电话 0931-4960929 传真: 0931-8278667
Email: gdzhbj@mail.iggcas.ac.cn gdzhuk@hotmail.com 邮编: 730000
地址 兰州市城关区东岗西路382号
简历:

博士(东京大学),研究员,博士生导师。 

中国科学院“百人计划”入选者。

国际地球化学学会会员,日本地球化学会会员,国际地质灾害研究理事会会员,中国岩石矿物地球化学学会终身会员,中国可再生能源学会天然气水合物专业委员会委员(2009年起),中国核物理学会穆斯堡尔谱学专业委员会委员(2011年起),中国灾害防御协会火山专业委员会委员(2013年起)。 
  

欢迎有志青年报考研究生;同时欢迎博士称号拥有者来做博士后研究。博士后研究选题包括:石油天然气储集层地球化学、环境地球化学、工程地质地球化学等(具体条件参见研究所招生网页)

联系地址:
中国科学院兰州地质研究所(兰州市东岗西路382号)
邮政编号:730000 电话:0931-4960929
中国科学院地质与地球物理研究所 (北京市北土城西路19号)
邮政编号:100029 电话/传真:010-82998358

求学与工作简历:
19799月,由山东省寿光县第一中学考入兰州大学地质地理系区域地质学专业19837月毕业,获理学学士学位; 
1983年-1996年,中国科学院兰州地质研究所,主要从事石油地质和地球化学方面的研究,其中1992年9月-1994年7月由国家公派赴捷克共和国马萨理克大学访问研究,(后转为自费留学,博士毕业);
1996—2001年8月,去日本国自费留学,就读于东京大学综合文化研究科广域科学专攻,研究方向是现代水系沉积物环境地球化学,2001年3月毕业,获学术博士学位;2001年4月起在东京大学综合文化研究科博士后研究,并在立正大学担任分析化学助理教师;
2002年7月-2003年1月,京都大学理学研究科附属地热学研究施设当教务辅佐员,主要从事铼-锇同位素实验研究;
2003年2月-10月,英国卡迪夫大学土木工程学院地质环境研究中心任地质环境工程师,主要从事有害元素地球化学研究;
2003年9月-2005年1月,日本广岛大学任JSPS外国人特别研究员,研究方向为二迭-三叠系界限层铼-锇同位素,现代河口沉积物锇同位素地球化学,铁化学种的地质应用等;
2005年1月-2006年2月,美国史蒂文斯理工学院环境研究中心任研究员,主要从事打靶场重金属环境地球化学研究;
2006年3月回国,作为“引进国外杰出人才”入选中国科学院“百人计划”(2007年获择优支持;2011年通过结题答辩),就职于中国科学院地质与地球物理研究所兰州油气资源研究中心,主要从事油气储层地球化学,环境地球化学,工程地质地球化学以及相关分析技术开发等方面的研究工作。特别注重实验室相关分析技术和方法的合理使用。

研究方向:

    元素化学种,即元素的地球化学赋存状态及其变化,主要包括铁、锰、铬、硫、硒、砷、锑等元素。这些元素都是氧化还原敏感性元素,具有重要的地球化学意义(例如铁、锰、硫)和环境意义(例如硒、砷、铬、锑等)。使用的分析测试手段包括穆斯鲍尔谱(是目前分析铁元素化学种最为有效可靠的方法之一),大型同步辐射装置(例如北京正负电子对撞机)实验终端的X-射线吸收精边结构(XANES)(针对锰、铬、硒、砷等)和中能软X-光区XANES(针对硫钙等)。涉及领域主要包括:油气储层地球化学,滑带土和断层泥地球化学,微生物地球化学作用,元素化学种与成矿机理研究等,但最基本的思路都是基于氧化还原条件解释相关地质作用和环境问题。 
    同位素地球化学,主要是碳氢同位素(天然气、沉积物/岩等),铼-锇同位素的应用研究等。掌握岩石样品和沉积物样品铼锇同位素实验的全过程,曾经分析过的样品包括,日本地质调查局发行的沉积岩地球化学标准样品(海洋沉积物、陆地河川沉积物),东京都多摩川和九州大分县利川河口区沉积物,二迭-三叠系界限层硅质岩和黑色页岩等。

学科类别:
地球科学(地球化学)
职务:
社会任职:
获奖及荣誉:
承担科研项目情况:
1. 国家科技重大专项子课题:天然气形成的有机-无机相互作用及潜力。2016-2018,正在执行中。
2. 国家自然科学基金面上项目:陇南地区大型滑坡滑带土形成与聚集的地球化学研究。2016-2019,正在执行中。
3. 国家自然科学基金面上项目:准噶尔盆地南缘泥火山系统的甲烷释放与固碳作用研究。2013-2016年(已结题)。
4. 国家自然科学基金重大国际(地区)合作与交流项目:青藏高原及其周边新生代典型火山和泥火山区的温室气体排放。2011-2013年(已结题)。
5. 吐哈油田委托项目:牛东区块火山岩油气储层中H2S的来源与形成机理研究。2010年1-12月,已经结题,通过验收。
6. 中国科学院“百人计划”专项:油气储层地球化学研究。2006-2011年,已通过结题答辩。
代表论著:

2001年以来发表的部分论文

1. Sajjad, W., Zheng, G.D.*, Ma, X.X., Rafiq, M., Irfan, M., Xu, W. & Ali, B. 2018: Culture-dependent hunt and characterization of iron-oxidizing bacteria in Baiyin Copper Mine, China and their application in metals extraction. Journal of Basic Microbiology (accepted)
2. He, B.H, Fan, Q.H., Zhao, X.L., Li, P., Liang, J.J., Ma, X.X., Zheng, G.D. & Qiu, J.L. 2018: Lead isotopic fingerprinting as a tracer to identify the pollution sources of heavy metals in the Southeastern Zone of Baiyin, China. Science of the Total Environment (accepted)
3. Sajjad, W., Zheng, G.D.*, ud Din, G., Ma, X.X., Rafiq, M. & Xu, W. 2018: Metals extraction from sulfide ores with microorganisms: The bioleaching technology and recent developments. Transactions of the Indian Institute of Metals (accepted)
4. Xu, W., Zheng, G.D.*, Ma, X.X., Fortin, D., Hilton, D., Liang, S.Y., Liang, S.Y., Chen, Z. & Hu, G.Y. 2018: Iron speciation of mud breccia from the Dushanzi mud volcano in the Xinjiang Uygur Autonomous Region, NW China. Acta Geologica Sinica (in press)
5. Sajjad, W., Zheng, G.D.*, Zhang, G.S., Ma, X.X., Xu, W. & Khan, S. 2018: Bioleaching of copper and zinc bearing ore by using consortia of indigenous iron-oxidizing bacteria. Extremophiles 22, 851-863.
6. Chen, Z., Li, Y., Du, J.G., Zheng, G.D., Li, Y.Y., Gao, X.Q., Cui, Y.J., Zhou, X.C., Liu, L., Liu, H., Xie, C., Yan, L. & Wang, C.G. 2018: Carbon isotope variations in inorganic carbon materials: Implications for mud volcanic carbon cycling in the northern Tianshan fold zone, Xinjiang, China. Applied Geochemistry 97, 32-39.
7. Ren, G., Ma, A.Z, Zhang, Y.F., Deng, Y., Zheng, G.D., Zhuang, X.L., Zhuang, G.Q. & Fortin, D. 2018: Electron acceptors for anaerobic oxidation of methane drive microbial community structure and diversity in mud volcanoes. Environmental Microbiology 20(7), 2370-2385.
8. Sajjad, W., Zheng, G.D.*, Zhang, G.S., Ma, X.X., Xu, W., Ali, B. & Rafiq, M. 2018: Diversity of prokaryotic communities indigenous to acid mine drainage and related rocks from Baiyin Open-pit Copper Mine Stope, China. Geomicrobiology Journal 35(7), 580-600.
9. Zheng, G.D., Xu, W., Etiope, G., Ma, X.X., Liang, S.Y., Fan, Q.H., Sajjad, W., and Li, Y. 2018: Hydrocarbon seeps in petroliferous basins in China: a first inventory. Journal of Asia Earth Sciences 151, 269-284.
10. Ji, L.M., Zhang, M.Z., Ma, X.X., Xu, W. and Zheng, G.D. 2018: Characteristics of mixed sporopollen assemblage from sediments of Dushanzi mud volcano in southern Junggar Basin and indication to the source of mud and debris ejecta. Marine and Petroleum Geology 89(1), 194-201.
11. Ma, X.X., Zheng, G.D., Li, Y., Fan, Q.H., Sajjad, W., Xu, W., Zheng, J.J. and Xia, Y.Q. 2018: Influence of minerals and iron on natural gases generation during pyrolysis of type-III kerogen. Marine and Petroleum Geology89(1), 216-224.
12. Sano, Y., Kinoshita, N., Kagoshima, T., Takahata, N., Sakata, S., Toki, T., Kawagucci, S., Waseda, A., Lan, L.F., Wen, H., Chen, A-T., Lee, H., Yang, F.T., Zheng, G.D., Tomonaga, Y., Roulleau, E. and Pinti, D.L. 2017: Origin of methane-rich natural gas at the West Pacific convergent plate boundary. Scientific Reports 7:15456.
13. Sun, Y.T., Zhou, X.C., Zheng, G.D., Li, J., Shi, H.Y., Guo, Z.F., and Du, J.G. 2017: Carbon monoxide degassing from seismic fault zones in the Basin and Range province, west of Beijing, China. Journal of Asia Earth Sciences 149(1), 41-48.
14. Zheng, G.D., Ma, X.X., Guo, Z.F., Hilton, D.R., Xu, W., Liang, S.Y., Fan, Q.H. and Chen, W.X. 2017: Gas geochemistry and methane emission from Dushanzi mud volcanoes in the southern Junggar Basin, NW China. Journal of Asia Earth Sciences 149(1), 184-190.
15. Li, P., Ma, X.X., Li, H., Li, S.C., Wu, H.Y., Xu, D., Zheng, G.D. and Fan, Q.H. 2017: Sorption mechanism of Th(IV) at iron oxyhydroxide (IOHO)/water interface: Batch, model and spectroscopic studies. Journal of Molecular Liquids 241, 478-485.
16. Wang, Y.P., Hilton, R.D., Zhou, Z. and Zheng, G.D. 2017: Progress in the application of gas geochemistry to geothermal, tectonic and magmatic studies. Chemical Geology 469, 1-3.
17. Xu, S., Zheng, G.D., Zheng, J.J., Zhou, S.X. and Shi, P.L. 2017: Mantle-derived helium in foreland basins in Xinjiang, Northwest China. Tectonophysics 694, 319-331.
18. Ma, X.X., Zheng, G.D., Xu, W., Liang, M.L., Fan, Q.H., Wu, Y.Z., Ye, C.L., Shosugawa, K. and Matsuo, M. 2016: Iron speciation and mineral characterization of upper Jurassic reservoir rocks in the Minhe Basin, NW China. Hyperfine Interactions 237(77), 1-12.
19. Zheng, G.D., Xu, W., Fortin, D., Pan, Y.X., Liang, M.L., Wu, D.D, Yang, R., Fan, Q.H. and Zhao Y.D. 2016: Sulfur speciation of marine sediments impacted by gas emissions in the northern part of the South China Sea. Marine and Petroleum Geology 73, 181-187.
20. Ma, X.X., Zheng, J.J., Zheng, G.D., Xu, W., Qian, Y., Xia, Y.Q., Wang, Z.D., Wang, X.F. and Ye, X.Y. 2016: Influence of pyrite on hydrocarbon generation during pyrolysis of type-III kerogen. Fuel 167, 329-336.
21. Zhang, Z.W., Zheng, G.D., Takahashi, Y., Wu, C.Q., Zheng, C.F., Yao, J.H., and Xiao, C.Y. 2016: Extremely enrichment of rare earth elements in hard clay rocks and its mineralization significance. Ore Geology Reviews 72, 191-212.
22. Fan, Q.H., Zhao, X.L., Ma, X.X., Wu, W.S. and Zheng, G.D. 2015: Comparative adsorption of Eu(III) and Am(III) on TPD. Environmental Science Processes Impacts 17, 1634-1640.
23. Hu, Y., Feng, D., Chen, L.Y., Zheng, G.D., Pechmann, J. and Chen, D.F. 2015: Using iron speciation in authigenic carbonates from hydrocarbon seeps to trace variable redox conditions. Marine and Petroleum Geology 67, 111-119.
24. Ma, X.X., Zheng, G.D., Liang, S.Y. and Xu, W. 2015: Geochemical characteristics of absorbed gases of gouge from some faults in Daliushu Dam area, NW China. Geochemical Journal 49(4), 413-419.
25. Xu, X.F., Zheng, G.D., Li, S., Takahashi, Y., Shen, G. and Dermata, D. 2015: A quantitative XANES evaluation of the TCLP applicability in phosphate-induced lead stabilization for firing range soils. Environmental Earth Sciences 73(4), 1641-1647.
26. Xu, S., Zheng, G.D., Wang, H.L., Wang, X.B., Nakai, S. and Wakita, H. 2014: Helium and carbon isotope variations in Liaodong Peninsula, NE China. Journal of Asia Earth Sciences 90, 149-156.
27. Wang, X.B., Ouyang, Z.Y., Zhuo, S.G., Zhang, M.F., Zheng, G.D. and Wang, Y.L. 2014: Serpentinization, abiogenic organic compounds, and deep life. Science China Earth Sciences 57(5), 878-887.
28. Zheng, G.D., Suzuki, K., Kuno, A., Matsuo, M., Takano, B. and Shimizu, H. 2014: Osmium geochemistry of modern estuarine sediments from the Tama and Yasaka rivers in Japan. Applied Geochemistry 40(1), 82-88.
29. Zhang, Z.W., Zheng, G.D., Shozugawa, K., Matsuo, M. and Zhao, Y.D. 2013: Chemical speciation of sulfur and iron in some sedimentary-transformation-type of lead-zinc deposits in Xinjiang Province, northwest China. Journal of Radioanalytical and Nuclear Chemistry 297(1), 83-90.
30. Takahashi, Y., Furukawa, T., Kanai, Y., Uematsu, M., Zheng, G.D. and Marcus, M.A. 2013: Seasonal changes in Fe species and soluble Fe concentration in the atmosphere in the Northwest Pacific region based on the analysis of aerosols collected in Tsukuba, Japan. Atmospheric Chemistry and Physics 13, 7695-7710.
31. Zheng, G.D., Xu, S., Liang, S.Y., Shi, P.L. and Zhao J. 2013: Gas emission from the Qingzhu River after the 2008 Wenchuan Earthquake, Southwest China. Chemical Geology 339, 187-193.
32. Xu, S., Zheng, G.D., Nakai, S.I., Wakita, S., Wang, X.B. and Guo, Z.F. 2013: Hydrothermal He and CO2 at Wudalianchi intra-plate volcano, NE China. Journal of Asia Earth Sciences 62(1), 526-530.
33. Tanaka, M., Takahashi, Y., Yamaguchi, N., Kim, K.W., Zheng, G.D. and Sakamitsu, M. 2013: The difference of diffusion coefficients in water for arsenic compounds at various pH and its dominant factors implied by molecular simulations. Geochimica et Cosmochimica Acta 105, 360-371.
34. Xu, S., Zheng, G.D. and Xu, Y.C. 2012: Helium, argon and carbon isotopic compositions of spring gases in the Hainan Island, Southern China. Acta Geologica Sinica 86(6), 1515-1523.
35. Zheng, G.D., Suzuki, K., Miyata, Y. and Shimizu, H. 2012: Osmium concentrations and 187Os/188Os ratios of three sediment reference materials issued by the Geological Survey of Japan. Geochemical Journal 46(2), 143-149.
36. Zheng, G.D., Xu, S., Liang, M.L., Dermatas, D. and Xu, X.F. 2011: Transformations of organic carbon and its impact on lead weathering in shooting range soils. Environmental Earth Sciences 64(8), 2241-2246.
37. Nakada, R., Takahashi, Y., Tsunogai, U., Zheng, G.D., Shimizu, H. and Hattori, K.H. 2011: A geochemical study on mud volcanoes in the Junggar Basin, China. Applied Geochemistry 26(7), 1065-1076.
38. Zheng, G.D., Liang, S.Y., Lang, Y.H., Ma, X.X. and Xiang, W. 2010: Pyrite in sliding mud: A potential indicator to landslide development. Journal of Earth Science 21(6), 954-960.
39. Nakada, R., Takahashi, Y., Zheng, G.D. and Shimizu, H. 2010: Abundances of rare earth elements in crude oils and their partitions in water. Geochemical Journal 44 (5), 411-418.
40. Zheng, G.D., Fu, B.H., Takahashi, Y., Kuno, A., Matsuo, M. and Zhang, J.D. 2010: Chemical speciation of redox sensitive elements during hydrocarbon leaching in the Junggar Basin, Northwest China. Journal of Asia Earth Sciences 39(6), 713-723.
41. Duan, Y., Wang, J.G., Wu, B.X., Zheng, C.Y., Yu, W.X. and Zheng, G.D. 2009: Geochemical characteristics and genesis of crude oils from Gasikule oilfield in Western Qaidam Basin, China. Geochemical Journal 43(5), 293-304.
42. Takahashi, Y., Sakuma, K., Itai, T., Zheng, G.D. and Mitsunobu, S. 2008: Speciation of antimony in PET bottles produced in Japan and China by X-ray absorption fine structure spectroscopy. Environmental Science and Technology 42(24), 9045-9050.
43. Zheng, G.D., Fu, B.H., Takahashi, Y., Miyahara, M., Kuno, A., Matsuo, M. and Miyashita, Y. 2008: Iron speciation in fault gouge from the Ushikubi fault zone central Japan. Hyperfine Interactions 186(1-3), 39-52.
44. Duan, Y., Wang, C.Y., Zheng, C.Y., Wu, B.Y. and Zheng, G.D. 2008: Geochemical study of crude oils from the Xifeng oilfield of the Ordos basin, China. Journal of Asian Earth Sciences 31(1-3), 341-356.
45. Zheng, G.D., Kuno, A., Evans, D.J., Mahdi, T.A., Miyahara, M., Takahashi, Y., Matsuo, M. and Shimizu, H. 2007: Iron speciation and mineral characterization of contaminated sediments by coal mining drainage in Neath Canal, South Wales, UK. Geochemical Journal 41(6), 463-474.
46. Fu, B.H., Zheng, G.D., Ninomiya, Y., Wang, C.Y. and Sun, G. 2007: Mapping hydrocarbon-induced mineralogical alterations in the northern Tian Shan using ASTER multispectral data. Terra Nova 19(4), 225-231.
47. Zheng, G.D., Lang, Y.H., Miyahara, M., Nozaki, T. and Tsushima, H. 2007: Iron oxide precipitate in seepage of groundwater from a landslide slip zone. Environmental Geology 51(8), 1455-1464.
48. Zheng, G.D., Suzuki, K., Takahashi, Y., Shimizu, H., Kuno, A. and Matsuo M. 2006: Identification of pyrite using 57Fe M?ssbauer spectroscopy combined with a series of acidic treatment in core sediments from Erhai Lake, SW China. Journal of Radioanalytical and Unclear Chemistry 269(1), 43-50.
49. Duan, Y., Zheng, C.Y., Wang, Z.P., Wu, B.X., Wang, C.Y., Zhang, H., Qian, Y.R. and Zheng, G.D. 2006: Biomarker geochemistry of crude oils from the Qaidam Basin, NW China. Journal of Petroleum Geology 29(2), 175-188.
50. Duan, Y, Zhang, H, Zheng, CY, Wu, B.X. and Zheng, G.D. 2005: Carbon isotopic characteristics and their genetic relationships for individual lipids in plants and sediments from a marsh sedimentary environment. Science in China Series D-Earth Sciences 48(8), 1203-1210.
51. Duan, Y, Qian, YR, Wang, CY, Wang, Z.P., Zhang, X.B., Zhang, H., Wu, B.X. and Zheng, G.D. 2004: Abundant non-hydrocarbons in crude oils from the western Qaidam Basin, northwest China. Geochemical Journal 38(5), 461-471.
52. Duan, Y, Wu, B.X., Zheng, G.D., Zhang, H. and Zheng, C.Y. 2004: The specific carbon isotopic compositions of branched and cyclic hydrocarbons from Fushun oil shale. Chinese Science Bulletin 49(4), 369-373.
53. Zheng, G.D., Fu, B.H., Duan, Y., Wang, Q., Matsuo, M. and Takano, B. 2004: Iron speciation related to colors of Jurassic sedimentary rocks in Turpan Basin, Northwestern China. Journal of Radioanalytical and Nuclear Chemistry 261(2), 421-427.
54. Duan, Y., Wu, B.X., Zheng, G.D., Zhang, H. and Zheng, C.Y. 2004: The carbon isotopic studies of individual branched and cyclic hydrocarbons in sediment. Chinese Science Bulletin 49(2), 199-202.
55. Xu, S., Zheng, G.D. and Lang, Y.H. 2003: Radiocarbon and M?ssbauer spectroscopy research in Mukaiyama landslide Japan. Journal of Radioanalytical and Nuclear Chemistry 258(2), 307-314.
56. Zheng, G.D., Duan, Y., Takano, B., Luo, B.J., Cheng, K.M. and Zhang, Y.J. 2003: Pyrolysis studies on the conversion of vitrinite reflectance and the primary productivity of various non-marine source rocks in China. Journal of Asian Earth Sciences 22(4), 353-361.
57. Kuno, A., Zheng, G.D., Matsuo, M., Takano, B., Shi, J. and Wang, Q., 2003: Characterization of ultramafic rocks from Jinchuan nickel deposit in China by 57Fe M?ssbauer spectroscopy. Journal of Radioanalytical and Nuclear Chemistry 255(2), 279-282.
58. Xu, S. and Zheng, G.D. 2003: Variations in radiocarbon ages of various organic fractions in core sediments from Erhai Lake, SW China. Geochemical Journal 37(1), 135-144.
59. Zheng, G.D., Lang, Y.H., Matsuo, M., Takano, B., Kuno, A. and Tsushima, H., 2002: M?ssbauer spectroscopic characterizations of iron species in sliding mud. Hyperfine Interactions 141/142(1-4), 361-367.
60. Kuno, A., Zheng, G.D., Matsuo, M., Takano, B., Shi, J.A. and Wang, Q., 2002: M?ssbauer spectroscopic study on vertical distribution of iron species in sediments from Qinghai Lake, China. Hyperfine Interactions 141/142(1-4), 321-326.
61. Zheng, G.D., Lang, Y.H., Takano, B., Matsuo, M., Kuno, A. and Tsushima, H., 2002: Iron speciation of sliding mud in Toyama Prefecture, Japan. Journal of Asian Earth Sciences 20(8), 955-963.
62. Zheng, G.D., Xu, S., Lang, Y.H. and Meng, Z.F. 2002: Variation of iron species in sliding mud. Chinese Science Bulletin 47(23), 2018-2024. (Chinese version in 47(24), 1889-1893).
63. Zheng, G.D., Takano, B., Matsuo, M. and Tanaka, Y., 2002: Compaction of modern soft sediments during core sampling-an investigation in situ at an estuary site. Environmental Geosciences 9(3), 109-114.
64. Zheng, G.D., Takano, B. and Chen, H.L. 2002: Fission track ages of Mahanshan metamorphic rock group in Gansu Province, Northwest China. Journal of Radioanalytical and Nuclear Chemistry 251(3), 375-380.
65. Zheng, G.D., Takano, B., Kuno, A. and Matsuo, M. 2001: Iron speciation in modern sediment from Erhai Lake, southwestern China--Redox conditions in an ancient environment. Applied Geochemistry 16(9-10), 1201-1213.
66. 郑国东,郭正府,王云鹏,陈践发。2018:气体地球化学新进展-纪念著名气体地球化学专家David R. Hilton教授。矿物岩石地球化学通报 37(4),IV-VII
67. 王华林,郑国东,王纪强,付海清,马向贤,胡超。2017:山东黄县弧形断裂断层泥铁元素化学种分布特征及其构造地质意义。中国地震 33(2),248-259
68. 胥旺,郑国东,马向贤,范桥辉,David R Hilton。2017:非生物成因烃类气体研究历程与判识标志的讨论。新疆石油地质 38(2),245-252
69. 郭正府,郑国东,孙玉涛,张茂亮,张丽红,成智慧。2017:中国大陆地质源温室气体释放。矿物岩石地球化学通报 36(2),204-212.
70. 张丽红,郭正府,郑国东,张茂亮,孙玉涛,成智慧,马向贤。2017:藏南新生代火山-地热区温室气体的释放通量与成因——以谷露-亚东裂谷为例。岩石学报(1),250-266.
71. 王先彬,卓胜广,张明峰,迟洪兴,杨辉,马向贤,郑国东,范桥辉,孙则朋。2016:蛇纹石化橄榄岩的氧化-还原特征。矿物岩石地球化学通报 35(2),231-238.
72. 马向贤, 郑国东, 郭正府, Etiope, G., Fortin, D., 佐野有司。2014:准噶尔盆地南缘独山子泥火山温室气体排放通量。科学通报 59(32), 3190-3196
73. 马向贤,郑建京,郑国东。2014:含铁矿物对褐煤生烃演化的催化作用。天然气地球科学 25(7), 1121-1126
74. 王先彬,欧阳自远,卓胜广,张明峰,郑国东,王永莉。2014:蛇纹石化作用、非生物成因有机化合物与深部生命。中国科学:地球科学 44(6),1096-1106
75. 高苑,王永莉,郑国东,孟培,吴应琴,杨辉,张虹,王有孝。2012:新疆准噶尔盆地独山子泥火山天然气地球化学特征。地球学报 33(6),989-994
76. 马向贤,郑国东,梁收运,樊成意,王自翔,梁明亮。2012:地质甲烷对大气甲烷源与汇的贡献。矿物岩石地球化学通报 31(2),141-147
77. 马向贤,郑国东,梁收运,魏丽娟,梁明亮。2011:黄铁矿风化作用及其工程地质意义。岩石矿物学杂志 30(6), 1132-1138
78. 梁明亮,毛秀玲,郑国东,罗晓容,李忠。2011:火成岩油气储层水岩相互作用:研究进展与发展方向。矿物岩石地球化学通报 30(2),215-222
79. 梁明亮,郑国东,梁收运,王旭东。2010:穆斯堡尔谱技术在科技考古中的应用。文物保护与考古科学 22(3),81-86
80. 李晓,梁收运,郑国东。2010:滑带土的研究进展。地球科学进展25(5),484-491
81. 叶聪林,郑国东,赵军。2010:油气储层中水岩相互作用研究现状。矿物岩石地球化学通报 29(1),89-97
82. 刘涛,郑国东,潘永信,刘宏芳。2009:地质微生物对海洋天然气水合物的影响。天然气地球科学20(6),992-999
83. 赵军,郑国东,付碧宏。2009:活动断层的构造地球化学研究现状。地球科学进展24(10),1130-1137
84. 付碧宏,时丕龙,王萍,李琦,孔屏,郑国东。2009:2008年汶川地震断层北川段的几何学与运动学特征及地震地质灾害效应。地球物理学报 52(2),485-495
85. 付碧宏,王萍,孔屏,郑国东,王刚,时丕龙。2008:四川汶川5.12大地震同震滑动断层泥的发现及构造意义。岩石学报 24(10),2237-2243
86. 郑国东,付碧宏。2008:断裂带构造地球化学研究。矿物岩石地球化学通报 27(增刊)436-437
87. 郑国东,2008:基于穆斯堡尔谱技术的铁化学种及其在表生地球科学研究中的应用。矿物岩石地球化学通报27(2),161-168.
88. 郑国东,徐胜,郎煜华,段毅。2006:日本富山县中田浦滑坡滑带内的黄铁矿。地球化学 35(2), 201-210.
89. 马英俊,郑国东(通讯作者),刘芊。2006:吐鲁番盆地侏罗系沉积岩的颜色与铁的赋存状态关系研究。矿学报 26(2),137-144.
90. 郑国东,徐胜,郎煜华,段毅。2006:日本富山县中田浦滑坡滑带内的黄铁矿。地球化学 35(2), 201-210.
91. 段毅,张辉,郑朝阳,吴保祥,郑国东,2004:沼泽沉积环境中植物和沉积脂类单体碳同位素组成特征及其成因关系研究。中国科学D辑34(12),1151-1156.
92. 段毅,吴保祥,郑国东,张辉,郑朝阳,2004:沉积物的单体异构和环烷烃碳同位素研究。科学通报49(2),199-202.


Book Chapters

93. Mahdi, T., Thomas, H., Francis, R. and Zheng, G.D. 2010: Evaluating remediation options for contaminated canal sediments. In: Restoration & Recovery: Regenerating Land and Communities. Whittles Publishing Hardback ISBN: 9781849950121, 81-91.
94. Mahdi T A, Francis R W, Thomas H R and Zheng G.D. 2010: Remediation options for contaminated canal sediments. Proceedings of ISSMGE’s 6th International Congress on Environmental Geotechnics, Delhi, India, 828-833.
95. Zheng, G.D., Fu, B.H., Kuno, A. and Matsuo, M. 2010: Iron speciation in bleached rocks by hydrocarbon leaching in Dushanzi Mud Volcano, NW China. Journal of Physics: Conference Series 217 012048 doi:10.1088/1742-6596/217/1/012048.
96. Zheng, G.D., Liang S.Y., Takahashi, Y., Mahdi, T.A. and Thomas, H.R. 2010: Chemical speciation of certain elements in coal mining drainage in the Neath Canal, South Wales, UK. In Birkle & Torres-Alvarado (eds). Water-Rock Interaction. Taylor & Francis Group, London, ISBN 978-0-415-60426-0. pp. 569-572.
97. Zheng, G.D. and Fu, B.H., 2008: Chemical speciation of certain elements sensitive to oil-gas bleaching and their significance to remote imagery. Australia–China remote sensing technologies and sustainability symposium, 70-71.
98. Lang, Y.H., Liang, S.Y. and Zheng, G.D. 2008: Redox condition and landslide development. In: Chen Z. et al., (eds.) Landslides and Engineered Slopes. Taylor & France Group, London, ISBN 978-0-415-41196-7, pp 1189-1193.
99. Zheng, G.D., Lang, Y.H., Liang, S.Y. 2007: Iron oxide precipitate as an indicator to redox conditions within a landslide slip zone. In Bullen & Wang (eds) Water-Rock Interaction. Taylor & France Group, London, ISBN 978-0-415-45136-9, pp 995-998.
100. Zheng, G.D., Lang Y.H., Xu, S. and Ma, S.M. 2004: A unique alkaline-reducing condition within slip zones related to landslide progressing. In: Lacerda et al. (eds), Landslides: Evaluation and Stabilization, Taylor & Francis Group, London, pp.743-747.


Industry Reports

1. Mahdi, T.A., Zheng, G. and Francis, R.W. 2003: Neath Canal Sediments--A report submitted to the WDA , Report Ref GRP/WP6.3/003
2. Stevens Institute of Technology 2005: Chromium speciation in chromite ore processing residue (COPR) investigated by using XANES spectroscopy
3. Stevens Institute of Technology 2005: Development of alternative berm media and associated best management practices for the management of firing ranges. A report for the DoD US Amery TACOM/AADEC project (DI-MGMT-80227, Task #23)

Others

1. 付碧宏,王萍,孔屏,时丕龙,郑国东。2009:中国汶川“5.12”8.0级大地震地震地质灾害图集. 地震出版社,ISBN 978-7-5028-3547-7/P(4154), 127页


Theses
Ph.D Dissertation (2001) Geochemical behavior and environmental implications of sulfur and selenium in modern sediments. The University of Tokyo, Japan (Supervisor: Prof. Bokuichiro Takano)

Graduated Study Thesis (1994) Distribution of 16 elements in modern river sediments at the Moravicum. Masaryk University, Czech Republic (Supervisor: Prof. Josef Zeman)

B.Sc. Thesis (1983) A study of rock-formation time of Mahanshan Group of metamorphic rocks in Gansu Province using fission track method. Lanzhou University, China (Advisor: Prof. Xueming Fu and Huailu Chen)


 
版权所有 @ 2009 中国科学院地质与地球物理研究所兰州油气资源研究中心 邮编:730000 陇ICP备05004659号
地址:甘肃省兰州市东岗西路382号 联系电话:0931-4960909 传真:0931-8278667