专家人才

郭庆军

  博士、研究员、博导,德国洪堡学者。2003年获得中国科学院研究生院博士学位(中德联合培养)。回国前,作为博士后、洪堡学者和客座研究员在德国明斯特大学从事研究工作。现任环境修复与资源工程实验室主任,中国科学院大学岗位教授,中科院特聘骨干人才。

  国家自然科学基金委“杰出青年科学基金”获得者(2016)

  获得15届候德封矿物岩石地球化学青年科学家奖;获得2013年度中国科学院青年科学家国际合作奖

  获得包括2016年度高等学校科学研究自然科学一等奖在内的省部级科技奖4项。

  在国内外杂志发表论文100多篇,其中发表SCI论文70多篇(第一(通讯)作者SCI 论文40多篇)。第一挂名授权一种治理镉铅砷复合污染土壤的植物修复方法等国家发明专利,参编《区域土壤环境质量》专著。

研究领域和研究方向

  I. 环境质量与修复

  主要是利用硫、碳氮、铅、镉、锌、铁、氧(硫酸盐、磷酸盐、硝酸盐)等多同位素技术和元素分析方法,定性和半定量分析水、土、气等环境污染来源和过程等。

  开展镉等重金属污染的超富集植物及耐性植物的筛选和修复机理等研究,并将镉同位素技术与植物生理学相结合,研究植物富集和耐性机理,并进行土壤重金属污染修复。

  II. 地球环境演变

  把不同形态碳和多硫等同位素、稀土元素和微量元素等方法,运用到生物地球化学循环的关键问题研究中,研究地球重要历史时期大气变化、生物进化与地球环境演化之间的关系等科学问题。

代表性学术论文   

  1.   Boyko, V., Avetisyan, K., Findlay, A., Guo, Q.*, Yang, X., Kamyshny A.*. Biogeochemical cycling of sulfur, manganese and iron in ferruginous limnic analog of Archean ocean. Geochimica et Cosmochimica Acta (Accepted).

  2.   Cui, M., Guo, Q.*, et al., 2021. Temporal-spatial dynamics of anthropogenic nitrogen inputs and hotspots in a large River Basin. Chemosphere (Accepted).

  3.   Wang, L., Guo, Q.*, et al., 2021. Trace and rare earth elements geochemistry of sedimentary rocks in the Ediacaran-Cambrian transition from Tarim Basin, Northwest China: Constraints for redox environments. Precambrian Research,  https://doi.org/10.1016/j.precamres.2020.105942.

  4.   Cui, M., Guo, Q.*, et al., 2020. Anthropogenic nitrogen and phosphorus inputs in a new perspective: environmental loads from the mega economic zone and city clusters. Journal of Cleaner Production, DOI:https://doi.org/10.1016/j.jclepro.2020.124589.

  5.   Cui, M., Guo, Q.*, et al., 2020. Human-driven spatiotemporal distribution of phosphorus flux in the environment of a mega river basin. Science of the Total Environment 752, 141781-141793.

  6.   Guo, Q.*, Wang, C., Wei*, R., Zhu, G., Okoli, C. P., 2020. Qualitative and quantitative analysis of source for organic carbon and nitrogen in sediments of rivers and lakes based on stable isotopes. Ecotoxicology and Environmental Safety. Ecotoxicology and Environmental Safety 195, 110436-110446.

  7.   Peters, M., Guo, Q.*, et al., 2020. Seasonal effects on contamination characteristics of tap water from rural Beijing: a multiple isotope approach. Journal of Hydrology, https://doi.org/10.1016/j.jhydrol.2020.125037.

  8.   Han, X., Guo, Q.*, et al., 2020. Seasonal and long-term trends of sulfate, nitrate, and ammonium in PM2.5 in Beijing: implication for air pollution control. Environmental Science and Pollution Research 27, 23730-23741.

  9.   Deng, Y., Chen, F. *, Hu, Y., Guo, Q.*, et al., 2020. Methane seepage patterns during the middle Pleistocene inferred from molybdenum enrichments of seep carbonates in the South China Sea. Ore Geology Reviews 125, 103701, 1-19.

  10. Wang, L., Jin, Y., Weiss, D. J., Schleicher, N. J., Wilcke, W., Wu, L., Guo, Q., Chen, J., O’Connor, D., Hou, D., 2021. Possible application of stable isotope compositions for the identification of metal sources in soil. Journal of Hazardous Materials 407 (2021) 124812, https://doi.org/10.1016/j.jhazmat.2020.124812.

  11. Han, X., Lang, Y., Wang, T., Liu, C., Li, F., Wang, F., Guo, Q., Li, S., et al., 2020. Temporal and spatial variations in stable isotopic compositions of precipitation during the typhoon Lekima (2019), China. Science of the Total Environment, https://doi.org/10.1016/j.scitotenv.2020.143143.

  12. Wei, Y., Cui, M., Ye, Z., Guo, Q., 2020. Environmental challenges from the increasing medical waste since SARS outbreak. Journal of Cleaner Production, DOI: 10.1016/j.jclepro.2020.125246.

  13. Yin, X., Wei, R., Chen, H., Zhu, C., Liu, Y., Wen, H., Guo, Q., Ma, J., 2020. Cadmium isotope constraints on heavy metal sources in a riverine system impacted by multiple anthropogenic activities. Science of The Total Environment 750: 141233. DOI: 10.1016/j.scitotenv.2020.141233.

  14. Findlay, A.*, Boyko, V., Pellerin, A., Avetisyan, K., Guo, Q.*, Yang, X., Kamyshny, A., 2019. Sulphide oxidation affects the preservation of sulphur isotope signals. Geology 47 (8), 739-743.

  15. Tian, L., Guo, Q.*, et al., 2019. Phosphorus fractions and oxygen isotope composition of inorganic phosphate in typical agricultural soils. Chemosphere, https://doi.org/10.1016/j.chemosphere.2019.124622.

  16. Peters, M., Guo, Q.*, et al., 2019. Contamination patterns in river water from rural Beijing: A hydrochemical and multiple stable isotope study. Science of the Total Environment 654, 226-236.

  17. Okoli, C. P., Adewuyi, G. O., Zhang, Q., Zhu, G., Wang, C., Guo, Q.*, 2019. Aqueous scavenging of polycyclic aromatic hydrocarbons using epichlorohydrin, 1,6-hexamethylene diisocyanate and 4,4-methylene diphenyl diisocyanate modi?ed starch: Pollution remediation approach. Arabian Journal of Chemistry 12, 2760-2773.

  18. Guo, Z., Guo, Q., et al., 2019. Study on pollution behavior and sulfate formation during the typical haze event in Nanjing with water soluble inorganic ions and sulfur isotopes. Atmospheric Research 217, 198-207.

  19. Chen, C., Wei, J., Wen, X., Sun, X., Guo, Q., 2019. Photosynthetic Carbon Isotope Discrimination and Effects on Daytime NEE Partitioning in a Subtropical Mixed Conifer Plantation. Agricultural and Forest Meteorology 272-273, 143-155.

  20. Wang, L., Han, X., Liang, T., Guo, Q., et al., 2019. Discrimination of rare earth element geochemistry and co-occurrence in sediment from Poyang Lake, the largest freshwater lake in China. Chemosphere 217, 851-857.

  21. Zhao, Y., Yuan, J., Babcock, L. E., Guo, Q., et al., 2019. Global Standard Stratotype-Section and Point (GSSP) for the conterminous base of the Miaolingian Series and Wuliuan Stage (Cambrian) at Balang, Jianhe, Guizhou, China. Episodes 42 (2), 165-184.

  22. Kong, J., Guo, Q.*, et al., 2018. Contamination of heavy metals and isotopic tracing of Pb in surface and profile soils in a polluted farmland from a typical karst area in southern China. Science of the Total Environment 637-638, 1035-1045.

  23. Wei, R., Guo, Q.*, Yu, G., et al., 2018. Stable isotope fractionation during uptake and translocation of cadmium by tolerant Ricinus communis and hyperaccumulator Solanum nigrum as influenced by EDTA. Environmental Pollution 236, 634-644.

  24. Wei, L., Yue, S., Zhao, W.,Yang, W., Zhang, Y., Ren, L., Han, X., Guo, Q., Sun, Y., Wang, Z., Fu, P., 2018. Stable sulfur isotope ratios and chemical compositions of fine aerosols (PM2.5) in Beijing, China. Science of the Total Environment 633, 1156-1164.

  25. Zhu, G., Xiao, H., Guo, Q., et al., 2018. Effects of cadmium stress on growth and amino acid metabolism in two Compositae plants. Ecotoxicology and Environmental Safety 158, 300-308.

  26. Deng, Y., Ren, J., Guo, Q.*, et al., 2018. Geochemistry Characteristics of REY-Rich Sediment from Deep Sea in Western Pacific, and their Indicative significance. Acta Petrologica Sinica 34(3), 733-747.

  27. Zhu, G., Xiao, H., Guo, Q., et al., 2018. Heavy metal contents and enrichment characteristics of dominant plants in wasteland of the downstream of a lead-zinc mining area in Guangxi, Southwest China. Ecotoxicology and Environmental Safety 151, 266-271.

  28. Han, X., Guo, Q.*, Strauss, H., Liu, C., et al., 2017. Multiple sulfur isotope constraints on sources and formation processes of sulfate in Beijing PM2.5 aerosol. Environmental Science & Technology 51 7794-7803.

  29. Guo, Q.*, Zhu, G., et al., 2017. Spatial variation and environmental assessment of soil organic carbon isotopes for tracing sources in a typical contaminated site. Journal of Geochemical Exploration 175, 11-17.  

  30. Guo, Q.*, Deng, Y., et al., 2017. Carbonate carbon isotope evolution of seawater across the Ediacaran–Cambrian transition: Evidence from the Keping area, Tarim Basin, North-West China. Geological Magazine 154 (6), 1244-1256.

  31. Zhu, G., Guo, Q.*, et al., 2017. Multivariate statistical and lead isotopic analyses approach to identify heavy metal sources in topsoil from the industrial zone of Beijing Capital Iron and Steel Factory. Environmental Science and Pollution Research, DOI: 10.1007/s11356-017-9055-9.

  32. Deng, Y., Ren, J., Guo, Q.*, et al., 2017. Rare earth element geochemistry characteristics of seawater and pore water from deep sea in western Pacific. Scientific Reports. www.nature.com/articles/s41598-017-16379-1.

  33. Hu, J., Liu, C. *, Guo, Q. *, et al., 2017. Characteristics, sources and ecological risk assessment of PAHs in the Songhua River Basin, Northeast China. Environmental Science and Pollution Research. DOI: 10.1007/s11356-017-9057-7.

  34. Wei, R., Guo, Q.*, et al., 2017. Chromatographic Separation of Cd from Plants via Anion Exchange Resin for Isotope Determination by Multiple Collector ICP-MS. Analytical Sciences 33, 335-341.

  35. Guo, Z.*, Guo, A., Guo, Q.*, et al., 2017. Decomposition of Dexamethasone by gamma irradiation: Kinetics, degradation mechanisms and impact on algae growth. Chemical Engineering Journal 307, 722-728.

  36. Chen, S., Guo, Z. Y., Guo, Z. B. *, Guo, Q. *, et al., 2017.  Sulfur isotopic fractionation and its implication: Sulfate formation in PM 2.5 and coal combustion under different conditionsAtmospheric Research, DOI: 10.1016/j.atmosres.2017.04.034.

  37. Wang, J., Guo, Z., Shen, X., Guo, Q., et al., 2017. Gamma irradiation-induced decomposition of sulfamethoxazole in aqueous solution: the influence of additives, biological inhibitory, and degradation mechanisms. Environmental Science and Pollution Research 24, 23658–23665.

  38. Hohl, S. V., Becker, H., Jiang, S., Ling, H., Guo, Q., Struck, U., 2017. Geochemistry of Ediacaran cap dolostones of the Yangtze Platform, South China: Implications for diagenetic modification and seawater chemistry in the aftermath of the Marinoan glaciation. Journal of the Geological Society, https://doi.org/10.1144/jgs2016-145.

  39.  Guo, Z. Y., Li, J., Guo, Z. B., Guo, Q., et al., 2017. Phosphorus removal from aqueous solution in parent and aluminum-modified eggshells: thermodynamics and kinetics, adsorption mechanism, and diffusion process. Environmental Science and Pollution Research, DOI: 10.1007/s11356-017-9072-8.

  40. Liu, J., Li, S., Zhong, J., Zhu, X., Guo, Q., et al., 2017. Sulfate sources constrained by sulfur and oxygen isotopic compositions in the upper reaches of the Xijiang River, China. Acta Geochim, DOI 10.1007/s11631-017-0175-1.

  41. Guo, Q.*, Zhu, G., et al., 2016. Tracing the sources of sulfur in Beijing soil with stable sulfur isotopes. Journal of Geochemical Exploration 161, 112-118.

  42. Guo, Q.*, Deng, Y., et al., 2016. REE and trace element patterns from organic-rich rocks of the Ediacaran-Cambrian transitional interval. Gondwana Research 36, 94-106.

  43. Han, X., Guo, Q.*, Liu, C., et al., 2016. Effect of the pollution control measures on PM2.5 during the 2015 China Victory Day Parade: implication from water-soluble ions and sulfur isotope. Environmental Pollution 218, 230-241.

  44. Han, X., Guo, Q.*, Liu, C., et al., 2016. Using stable isotopes to trace sources and formation processes of sulfate aerosols from Beijing, China. Scientific Reports, www.nature.com/articles/srep29958.

  45. Tian, L., Guo, Q.*, et al., 2016. Research and application of method of oxygen isotope of inorganic phosphate in Beijing agricultural soils. Environmental Science and Pollution Research, DOI: 10.1007/s11356-016-7482-7.

  46. Zhang, H., Guo, Q.*, et al., 2016. Comparison of chelates for enhancing Ricinus communis L. phytoremediation of Cd and Pb contaminated soil. Ecotoxicology and Environmental Safety 133, 57-62.

  47. Wei, R., Guo, Q.*, et al., 2016. Fractionation of Stable Cadmium Isotopes in the Cadmium Tolerant Ricinus communis and Hyperaccumulator Solanum nigrum. Scientific Reports, DOI: 10.1038/srep24309.

  48. Zhu, G., Guo, Q.*, Chen, T., et al., 2016. Chemical and sulfur isotopic composition of precipitation in Beijing, China. Environmental Science and Pollution Research 23, 5507-5515.

  49. Rodler, A. S., Hohl, S. V., Guo, Q., Frei, R., 2016. Chromium isotope stratigraphy of Ediacaran cap dolostones, Doushantuo Formation, South China. Chemical Geology 436, 24-36.

  50. Yang J., Guo, Q. *, et al., 2016. Interaction between sulfur and lead in toxicity, iron plaque formation and lead accumulation in rice plant. Ecotoxicology and Environmental Safety 128, 206-212.

  51. Okoli, C. P., Adewuyi, G. O., Zhang, Q., Guo, Q., 2016. QSAR aided design and development of biopolymer-1 based SPE phase for liquid chromatographic analysis of polycyclic aromatic hydrocarbons in environmental water samples. RSC Advances, DOI: 10.1039/C6RA10932B.

  52. Hu, J., Liu, C., Zhang, G., Zhang, Y., Liu, B., Guo, Q., 2016. Distribution characteristics and source apportionment of polycyclic aromatic hydrocarbons (PAHs) in the Liao River drainage basin, northeast China. Environmental Monitoring and Assessment 188 (227), 1-12.

  53. Hohl, S., Becker, H., Herzlieb, S., Guo, Q., 2015. Multiproxy constraints on alteration and primary compositions of Ediacaran deep-water carbonate rocks, Yangtze Platform, South China. Geochimica et Cosmochimica Acta. 163, 262-278.

  54. Wang, D., Struck, U., Ling, H., Guo, Q., et al., 2015. Nitrogen isotope study of black shales during Early Cambrian on Yangtze platform, South China. Precambrian Research 267 209-226.

  55. Yang, J., Guo, Q.*, et al., 2015. Red mud (RM)-Induced Enhancement of Iron Plaque Formation Reduces Arsenic and Metal Accumulation in Two Wetland Plant Species. International Journal of Phytoremediation 18(3), 269-277.

  56. Peters, M., Guo, Q.*, et al., 2015. Geochemical and multiple stable isotope (N, O, S) investigation on tap and bottled water from Beijing, China. Journal of Geochemical Exploration 157, 3651.

  57. Zhang, H., Guo, Q. *, et al., 2015. Subcellular Cadmium distribution and antioxidant enzymatic activities in the leaves of two castor (Ricinus communis L.) cultivars exhibit differences in Cd accumulation. Ecotoxicology and Environmental Safety 120, 184-192.

  58. Wei, R., Guo, Q.*, et al., 2015. Analytical Method for Precise Determination of Cadmium Isotopic Composition in Plant Samples using Multiple Collector Inductively Coupled Plasma Mass Spectrometry. Analytical Methods 7, 2479 - 2487.

  59. Zhu, G., Guo, Q. *, Yang, J., Zhang, H., Wei, R., Wang, C., Peters, M., et al., 2015. Washing of heavy metals from contaminated soils from an iron and steel smelting site. Frontiers of Environmental Science & Engineering 9(4), 634-641.

  60. Yang, J., Wang, L., Li, J., Wei, D., Chen, S., Guo, Q., Ma, Y., 2015. Effects of rape straw and red mud on extractability and bioavailability of cadmium in a calcareous soil. Frontiers of Environmental Science & Engineering 9, 419-428.

  61. Guo, Q. *, Strauss, H., Zhao, Y., Yang, X., Peng, J., Yang, Y., Deng, Y., 2014. Reconstructing marine redox conditions for the transition between Cambrian Series 2 and Cambrian Series 3, Kaili area, Yangtze Platform: Evidence from biogenic sulfur and degree of pyritization. Palaeogeogr. Palaeoclimatol. Palaeoecol. 398, 144-153.

  62. Zhang, H., Guo, Q.*, et al., 2014. Cadmium Accumulation and Tolerance of Two Castor Cultivars in Relation to Antioxidant Systems. Journal of Environmental Sciences 26, 2048-2055.

  63. Okoli, C. P., Adewuyi, G. O., Zhang, Q., Diagboya, P. D., Guo, Q. *, 2014. Mechanism of dialkyl phthalates removal from aqueous solution using -cyclodextrin and starch based polyurethane polymer adsorbents. Carbohydrate Polymers 114, 440-449.

  64. Okoli, C. P., Guo, Q., et al., 2014. Application of quantum descriptors for predicting adsorption performance of starch and cyclodextrin adsorbents. Carbohydrate Polymers 101, 40-49.

  65. Zhao, Y., Yuan, J., Guo, Q., et al., 2014. Comments on some important issues concerning the establishment of a GSSP for Cambrian Stage 5. GFF 136(1), 333-336.

  66. Guo, Q. *, Strauss, H., Chen, T., Zhu, G., Yang, J., Lei, M., Zhou, X., Peters, M., Xie, Y., Zhang, H., Wei, R., Wang, C., 2013. Tracing the source of Beijing soil organic carbon: a carbon isotope approach. Environmental Pollution 176, 208-214.

  67. Guo, Q.*, Strauss, H., Zhu, M., et al., 2013. High resolution organic carbon isotope stratigraphy from a slope to basinal setting on the Yangtze Platform, South China: Implications for the Ediacaran – Cambrian transition. Precambrian Research 225, 209-217.

  68. Guo, Q.*, Deng, Y., Strauss, H., 2013. REE and trace element patterns across the Ediacaran-Cambrian transition, South China. Goldschmidt 2013 Conference Abstracts, 1234.

  69. Peters, M., Guo, Q. *, Strauss, H., Zhu, G., 2013. Geochemical and multiple isotope investigation on tap and river water of the Beijing urban area. Goldschmidt 2013 Conference Abstracts, 1954.

  70. Zhu, G., Guo, Q. *, Strauss, H., Peters, M., 2013. Tracing the sources of sulfur in Beijing rain water with stable isotopes. Goldschmidt2013 Conference Abstracts, 2614.

  71. Hohl, S. V., Becker, H., Herzlieb, S., Guo, Q., Gamper, A., 2013. Multi-proxy study of shallow- and deep-water Doushantuo carbonates, Yangtze Platform, South China. Goldschmidt2013 Conference Abstracts, 1311.

  72. Guo, Q. *, Deng, Y., 2012. Carbon isotopic evolution of the Late Ediacaran Gaojiashan biota on the northern Yangtze Platform, South China. Acta Geologica Sinica 86(6),1447-1454.

  73. Yang, X., Zhao, Y., Guo, Q., Yang, H., 2012. Geochemistry of the trace elements and rare-earth elements at the boundary between Cambrian Series 2 and Series 3 at Jianshan, South China: Paleoenvironmental and stratigraphic implications. Chinese Journal of Geochemistry 31(4), 465-475.

  74. Guo, Q. *, Strauss, H., Chen, T., Yang, J., Zhu, G., Liu, C., 2011. Contrasting Sulfur isotopic profiles in industrial and non-industrial Beijing soils. Applied Geochemistry 26(supp.1), S187.

  75. Xie, Y., Chen, T., Lei, M., Yang, J., Guo, Q., et al., 2011. Spatial distribution of soil heavy metal pollution estimated by different interpolation methods: Accuracy and uncertainty analysis. Chemosphere 82, 468-476.

  76. Guo, Q. *, Strauss, H., Liu, C., et al., 2010. A negative carbon isotope excursion defines the transition from Cambrian Series 2 to Cambrian Series 3 on the Yangtze Platform, South China. Palaeogeogr. Palaeoclimatol. Palaeoecol. 285,143-151.

  77. Guo, Q. *, Strauss, H., Liu, C., et al., 2010. Corrigendum to “A negative carbon isotope excursion defines the boundary from Cambrian Series 2 to Cambrian Series 3 on the Yangtze Platform, South China” . Palaeogeography, Palaeoclimatology, Palaeoecology 285 (2010) 143–151. Palaeogeogr. Palaeoclimatol. Palaeoecol. 288, 118.

  78. Guo, Q. *, Strauss, H., Kaufman, A. J., Schr?der, S., Gutzmer, J., Wing, B., Baker, M. A., Bekker, A., Jin, Q., Kim, S. –T., Farquhar, J., 2009. Reconstructing Earth’s surface oxidation across the Archean-Proterozoic transition. Geology 37(5), 399-402.

  79. Guo, Q. *, Strauss, H., Liu, C., et al., 2009. Sulphide sulphur and carbonate carbon isotopic evolution of the Cambrian Series 2 and 3, South China. Geochimica et Cosmochimica Acta 73, Suppl. S(13), p. A479-A479.

  80. Guo,Q. *, Shields, G., Liu, C., Strauss, H.,Goldberg, T., Pi, D., 2007. Trace element chemostratigraphy of two Ediacaran - Cambrian successions in South China: implications for organosedimentary metal enrichment and silicification in the Early Cambrian. Palaeogeogr. Palaeoclimatol. Palaeoecol. 254,194-216.

  81. Guo, Q. *, Strauss, H., Liu, C., Goldberg, T., Zhu, M., Heubeck, C., Pi, D., Vernhet, E., Yang, X., Fu, P., 2007. Carbon isotopic evolution of the terminal Neoproterozoic and Early Cambrian: evidence from the Yangtze Platform, South China. Palaeogeogr. Palaeoclimatol. Palaeoecol.254,140-157.

  82. Guo, Q. *, Strauss H,Schroder S,Gutzmer J., 2007. The sulphur isotopic evolution of late Neoarchean and early Paleoproterozoic seawater. Geochimica Et Cosmochimica Acta 71, Suppl. S (15), A363-A363.

  83. Guo, Q. *, Liu, C., Strauss, H., Goldberg, T., Zhu, M., et al., 2006. Organic Carbon Isotope Geochemistry of the Neoproterozoic Doushantuo Formation, South China. Acta Geologica Sinica 80(5), 670-683.

  84. Guo, Q. *, Strauss, H., Liu, C., Zhao, Y., et al., 2005. Carbon and oxygen isotopic composition of Lower to Middle Cambrian sediments at Taijiang, Guizhou Province, China. Geological Magazine142(6), 723-733.

  85. Guo, Q. *, Liu, C., Strauss, H., Goldberg, T., et al., 2003. Isotopic evolution of the terminal Neoproterozoic and early Cambrian carbon cycle on the northern Yangtze Platform, South China. Progress in Natural Science 13(12), 942-945.

  86. Cremonese, L., Struck, U., Shields, G., Guo, Q., Ling, H., Och, L., 2009. delta N-15 chemostratigraphy of Ediacaran-Cambrian sections of South China. Geochimica Et Cosmochimica Acta 73 (13), A251-A251.

  87. Zhao, Y., Yuan, J, Peng, S., Loren E. B., Peng, J, Guo, Q., Lin, J., Tai, T.,Yang, R., Wang, Y., 2008. A new section of Kaili Formation (Cambrian) and a biostratigraphic study of the boundary interval across the undefined Cambrian Series 2 and Series 3 at Jianshan, Chuandong village, Jianhe County, China with a discussion of global correlation based on the first appearance datum of Oryctocephalus indicus (Reed, 1910). Progress in Natural Science 18, 1549-1556.

  88. Goldberg, T., Strauss, H., Guo, Q., Liu, C., 2007. Reconstructing marine redox conditions for the Early Cambrian Yangtze Platform: evidence from biogenic sulphur and organic carbon isotopes. Palaeogeogr. Palaeoclimatol. Palaeoecol. 254,175-193.

  89. Yang, X., Zhu, M., Guo, Q., Zhao, Y., 2007. Organic Carbon Isotopic Evolution during the Ediacaran-Cambrian Transition Interval in Eastern Guizhou, South China: Paleoenvironmental and Stratigraphic Implications. Acta Geologica Sinica (English Edition) 81 (2), 194-203.

  90. Fu, P., Wu, F., Liu, C., Wang, F., Li, W., Yue, L., Guo, Q., 2007. Fluorescence characterization of dissolved organic matter in an urban river and its complexation with Hg(II). Applied Geochemistry 22, 1668-1679.

  91. 董鑫媛,郭庆军*,魏荣菲,陶正华,田丽艳. 大气硝酸盐氧同位素异常及应用进展. 生态学杂志, 202039 (3), 1022-1032.

  92. 柏杨, 郭庆军*等,2018. 大气硫循环模型研究进展. 生态学杂志, 378, 2505-2514.

  93. 孔静、郭庆军等,2017. 锌稳定同位素分析方法及其在环境科学研究中的应用. 生态学杂志 36(6), 1718-1726.

  94. 田丽艳, 郭庆军*, 何会军等, 2016. 磷酸盐氧同位素技术在环境科学中的研究进展. 生态学杂志 35(7), 1947-1956.

  95. 郭庆军*, 王春雨, 朱光旭等, 2015. 氮同位素研究城市湖泊沉积物有机质来源和迁移过程-以北京为例. 矿物岩石地球化学通报 34(3), 532-538.

  96. 张晗芝, 郭庆军*, 杨俊兴, 陈同斌等, 2015. 镉胁迫下蓖麻对镉及矿质元素的富集特征. 生态环境学报24(2), 323-328.

  97. 张晗, 王佳妮, 郭庆军, 张娴, 朱永官, 2015. 土壤磷酸盐氧同位素分析方法和应用研究进展. 土壤学报52(1), 19-27.

  98. 魏荣菲, 郭庆军*, 2014. 镉同位素技术在环境科学研究中的应用进展. 生态学杂志33(2), 525-536.

  99. 王春雨, 郭庆军*, 朱光旭等, 2014. 稳定碳同位素技术对湖泊沉积物有机质来源的分析与评价以北京市公园为例. 生态学杂志 33(3), 778-785.

  100.  杨俊兴,任红艳,郭庆军, 2014. 湿地植物通气组织和渗氧对其重金属吸收和耐性研究进展. 土壤46(3), 394-401.

  101.  朱光旭, 郭庆军*, 2013. 北京市南沙河沉积物重金属污染特征及风险评价. 生态学杂志32(8), 2148-2153.

  102.  朱光旭, 郭庆军*, 陈同斌, 杨俊兴, 张晗芝, 魏荣菲, 王春雨, Peters, M., 2013. 淋洗剂对多金属污染尾矿土壤的修复效应及技术研究. 环境科学, 34(9), 3690-3696.

  103. 杨兴莲, 朱茂炎, 赵元龙, 张俊明, 郭庆军, 皮道会, 2008. 黔东震旦系下寒武统黑色岩系稀土元素地球化学特征. 地质论评54(1), 3-15.

  104. 郭庆军*, 陈同斌等, 2011. 利用有机碳同位素组成辨识土壤污染过程的方法初探. 环境科学32(10), 327-331.

  105. 郭庆军*, 陈同斌等,2011.利用不同形态硫同位素组成辨识土壤污染过程的方法初探. 环境科学学报31(8),1730-1735.

  106. 李艳梅,雷梅,陈同斌,杨军,周小勇,郭庆军,马杰, 2011. 钢铁工业遗留场地土壤重金属洗脱剂筛选研究. 生态环境学报 20(4), 696-700.

   107. 李小燕, 陈同斌, 雷梅, 郭庆军, 2010. 不同土地利用方式下北京城区土壤的重金属累积特征. 环境科学学报 30(11), 2285-2293. 

招生专业:环境科学

招生方向:环境地球化学、环境质量与环境修复

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更新日期:20201222