SCI论文
1.Qiang Huang Weilin Huang,Reductive debromination of tetrachlorobisphenol A by Pd/Fe bimetallic catalysts,Journal of Hazardous Materials,2013:262, 634-641
2. Jia YL, Xiao TF*, Zhou GZ, Ning ZP,Thallium at the interface of soil and green cabbage (Brassica oleracea L. var. capitata L.): Soil–plant transfer and nfluencing factors,Science of Total Environment,2013, 450-451: 140–147
3. Liu YZ, Xiao TF*, Ning ZP, Li HJ, Tang J, Zhou GZ,High cadmium in soil in the Three Gorges region: Geogenic source and bioavailability.,Applied Geochemistry,2013, 37: 149–156
4. Yin. R., Feng X*., Wang J., Li P., Liu J., Zhang Y., Chen J., Zheng L., Hu T.,Mercury speciation, mercury isotope fractionation during ore roasting process and their implication to source identification of downstream sediment in Wanshan mercury mining area, SW China,Chemical Geology,2013, 336: 72-79. doi:10.1016/j.chemgeo.2012.04.030.
5. Yin. R., Feng X*., Wang J., Bao Z., Yu B., Chen J.,Mercury isotope variations between bioavailable mercury fractions and total mercury in mercury contaminated soil in Wanshan Mercury Mine, SW China,Chemical Geology,2013, 336: 80-86. doi:10.1016/j.chemgeo.2012.04.017.
6. Feng X*., Yin R., Yu B., Du B. Mercury isotope variations in surface soils in different contaminated areas in Guizhou Province, SW China,Chinese Science Bulletin,42(3): 205–211
7. Yin R., Feng X*., Meng B.,Stable Hg Isotope Variation in Rice Plants (Oryza sativa L.) from the Wanshan Hg Mining District, SW China,Environmental Science and Technology,2013, 47 (5): 2238–22458.
8. Fu X., Feng X.*, Guo Y., Meng B., Yin R., Yao H.,Distribution and production of reactive mercury and dissolved gaseous mercury in surface waters and water/air mercury flux in reservoirs on Wujiang River, Southwest China,Journal of Geophysical Research – Atmospheres,[6] 2013, 118, 3905–3917, doi:10.1002/jgrd.50384
9. Fu X., Feng X.*, Yin R., Zhang H.,Diurnal and seasonal trend of inorganic mercury speciation and exchange flux in fresh waters of Southwestern China: implications of photochemical and biological transformationms of mercuryEnvironmental Toxicology and Chemistry,[5] 2013, 32(10): 2256–2265. DOI: 10.1002/etc.2323
10. Zhu W., Sommar J., Li Z., Feng X*., Lin C-J., Li G.,Highly elevated emission of mercury vapor due to the spontaneous combustion of refuse in a landfill,Atmospheric Environment,[4] 2013, 79: 540-545
11. Zhu W., Li Z*., Chai X*., Hao Y., Lin C-J., Sommar J., Feng X.*,Emission characteristics and airesurface exchange of gaseous mercury at the largest active landfill in Asia,Atmospheric Environment,[3] 2013, 79: 188-197
12. Sommar J*., Zhu W., Lin C-J., Feng X.,Approaches to measure mercury gas exchange between natural surfaces and the atmosphere – a review,Critical Reviews in Environmental Science and Technology,2013, 43:1657-1739, DOI: 10.1080/10643389.2012.671733
13. Dai Z., Feng X*., Zhang C., Shang L.,Assessment of mercury erosion by surface water in Wanshan mercury mining area,Environmental Research,2013, 125:2–11
14. Qiu G., Feng X*., Meng B., Zhang C., Gu C., Du B., Lin Y.,Environmental geochemistry of an abandoned mercury mine in Yanwuping, Guizhou Province, China.,Environmental Research,2013, 125:124–130
15. Wang R., Feng X., Wang W.X*.,In Vivo mercury methylation and demethylation in freshwater Tilapia quantified by mercury stable isotopes,Environmental Science and Technology,2013, dx.doi.org/10.1021/es3043774
16. Yan H., Li Q., Meng B., Wang C., Feng X*., He T., Dominik J. Spatial distribution and methylation of mercury in a eutrophic reservoir heavily contaminated by mercury in Southwest China,Applied Geochemistry,2013, 33: 182–190
17. Li P., Feng X*.,Qiu G., Zhang J., Meng B., Wang J.,Mercury speciation and mobility in mine wastes from mercury mines in China,Environmental Science and Pollution Research [2] 013, 20:8374-8381, DOI: 10.1007/s11356-013-1731-9
18. Li P., Feng X*., Liang P., Chan H. M., Zeng E. Y., Yan H., Chen L.,Dietary mercury intake and potential health risk through seafood consumption in Guangdong, South China,Environmental Toxicology and Chemistry,2013, 32( 3): 541–547
19. Hu H., Lin H., Zheng W., Rao B., Feng X., Liang L., Elias D. A., Gu B*,Mercury Reduction and Cell-Surface Adsorption by Geobacter sulfurreducens PCA,Environmental Science and Technology,2013, 47: 10922-10930. DOI: 10.1021/es400527m
20. Hu H., Lin H., Zheng W., Tomanicek S J., Johs A., Feng X., Elias D A., Liang L., Gu B*,Oxidation and methylation of dissolved elemental mercury by anaerobic bacteria,Nature Geoscience,2013; 6 (9): 751-754. DOI: 10.1038/NGEO1894
21. Zhou J., Feng X*., Liu H., Zhang H., Fu X., Bao Z., Wang X., Zhang Y,Examination of total mercury inputs by precipitation and litterfall in a remote upland forest of Southwestern China,Atmospheric Environment,2013, 81: 364-372. DOI: 10.1016/j.atmosenv.2013.09.010
22. Sommar J*., Zhu W., Shang L., Feng X., Lin C-J,A whole-air relaxed eddy accumulation measurement system for sampling vertical vapour exchange of elemental mercury,Tellus (B),2013, 65, 19940, DOI:10.3402/tellusb.v65i0.19940
23. Dai Z., Feng X*., Zhang C., Wang J., Jiang T., Xiao H., Li Y., Wang X,Assessing anthropogenic sources of mercury in soil in Wanshan Hg mining area, Guizhou, China.,Environmental Science and Pollution Research,2013,20(11): 7560-7569
24. Zhang H., Yin R., Feng X*., Sommar J., Anderson C. W. N., Sapkota A., Fu X., Larssen T,Atmospheric mercury inputs in montane soils increase with elevation: evidence from mercury isotope signatures,Scientific Reports[1]2013, 3: 3322. DOI: 10.1038/srep03322
25. Li Z., Feng X*., Li G., Bi X., Zhu J., Qin H., Dai Z., Liu J., Li Q., Sun Y.,Distributions, sources and pollution status of 17 trace metal/metalloids in the street dust of a heavily industrialized city of central China,Environmental Pollution,2013, 182: 408-416. DOI: 10.1016/j.envpol.2013.07.041
26. Tu CL, He TB, Liu CQ, Lu XH.,Effects of Land Use and Parent Materials on Trace Elements Accumulation in Topsoil,Journal of Environmental Quality,2013;42(1):103-110
27. Mostofa K M G, Liu C Q, et al.,Balancing of Ocean Acidification by Superoxide Redox Chemistry?,Environmental Science & Technology,2013, 47 (20):11380–11381
28. Liu B, Liu CQ, et al.,Chemical weathering under mid- to cool temperate and monsoon-controlled climate: A study on water geochemistry of the Songhuajiang River system, northeast China,Applied Geochemistry,2013;31:265–278
29. Yue F J, Li S L, Liu C Q, et al. ,Using dual isotopes to evaluate sources and transformation of nitrogen in the Liao River, northeast China,Applied Geochemistry,,2013; 36:1-9
30. Bejamin Chelelat,Assessing the influence of lithology on weathering indices of Changjiang river sediments,Chemical Geology,2013, 359: 108-115
31. Si-Liang Li*, Cong-Qiang Liu, Jun Li, Zicheng Xue, Jin Guan, Yunchao Lang, Hu Ding, Longbo Li,Evaluation of nitrate source in surface water of southwestern China based on stable isotopes,Environ Earth Sci,2013,68:219-228
32. Ding H, Lang YC, Liu CQ, Liu TZ,Chemical characteristics and δ34S-SO42-of acid rain: Anthropogenic sulfate deposition and its impacts on CO2 onsumption in the rural karst area of southwest China,Geochemical Jouranl.,2013; 47:625-638
33. Tserenpil, S., Maslov, O. D., Norov, N., Liu, Q. C., Fillipov, M. F., Theng, B. K., & Belov, A. G.,Chemical and mineralogic al composi tion of the Mongolian rural soils and their uranium sorption behavior,Journal of Environm ental Radioa ctivity,2013, 118: 105-112.
34. Wang B; Liu CQ; Wang F, et al.,Diatoms modify the relationship between dissolved silicon and bicarbonate in impounded rivers,JOURNAL OF LIMNOLOGY,2013; 72: 494-504
35. Wang B, Liu C Q, Peng X, et al.,Mechanisms controlling the carbon stable isotope composition of phytoplankton in karst reservoirs,JOURNAL OF LIMNOLOGY,2013; 72:127-139
36. Liu XY, Koba K,et al.,Dual N and O isotopes of nitrate in natural plants: first insights into individual variability and organ-specific patterns,Biogeochemistry,2013, 114:399-411
37. Liu XY, Koba K, Makabe A, Li XD, Yoh M, Liu CQ.,Ammonium first: natural mosses prefer atmospheric ammonium but vary utilization of dissolved organic nitrogen depending on habitat and nitrogen deposition,New Phytologist,2013;199(2):407-419
38. Mostofa K M G, Liu C Q, et al.,Balancing of Ocean Acidification by Superoxide Redox Chemistry?,Environmental Science & Technology,2013, 47 (20):11380–11381
39. Mostofa K M G, Liu C Q, Vione D, et al.,Sources, factors, mechanisms and possible solutions to pollutants in marine ecosystems,Environmental Pollution,2013, 182: 461-478.
40. Liu WJ, Liu CQ, et al.,Elemental and strontium isotopic geochemistry of the soil profiles developed on limestone and sandstone in karstic terrain on Yunnan-Guizhou Plateau, China: Implications for chemical weathering and parent materials.,Journalof Asian Earth Sciences,2013;(67–68):138–152
41. Xu S; Liu CQ; et al.,In-situ cosmogenic Cl-36 denudation rates of carbonates in Guizhou karst area.,Chinese Science Bulletin,2013;58(20):2473-2479
42. Yue F J, Li S L, Liu C Q, et al. ,Using dual isotopes to evaluate sources and transformation of nitrogen in the Liao River, northeast China,Applied Geochemistry,,2013; 36:1-9
43. Zhu Jianming,Thomas M. Johnson,Liang Liang,Wang Xiangli,Qin Haibo,Yin Zuoying.,The Isotopic Composition of Selenium In Chinese Coals,Mineralogical magazine,2013,2615
44. Qin HB, Zhu JM, Takahashi Y, Zheng LR,Selenium speciation in soils from selenosis area: comparison between a sequential extraction procedure and XAFS. In: Bañuelos, G.S (eds.), Selenium in the environment and human health.,CRC Press,16-17
45. Zhu JM, Johnson TM.,The applications of selenium stable isotopes in environmental geochemistry. In: Bañuelos, G.S (eds.), Selenium in the environment and human health.,CRC Press,219-221
46. Zhu JM, Johnson TM, Clark SK, Zhu XK, Wang XL.,Selenium redox cycling during weathering of Se-rich shales: A selenium isotope study,Geochimica et Cosmochimica Acta,2014,126:228–249
47. 朱元荣,张润宇,吴丰昌等,Phosphorus fractions and bioavailability in relation to particle size characteristics in sediments from Lake Hongfeng, Southwest China,Environmental Earth Sciences,68(4): 1041-1052
48. 张润宇, 王立英,等,Phosphorus speciation in the sediment profile of Lake Erhai, southwestern China: Fractionation and 31P NMR,Journal of Environmental Sciences,25(6) 1124-1130
49. Zhang, DY; Lee, DJ; Pan, XL,Desorption of Hg(II) and Sb(V) on extracellular polymeric substances:Effects of pH, EDTA, Ca(II) and temperature shocks,Bioresource Technology,2013,128,711-715
50. Wang SZ, Zhang DY, Pan XL,Simultaneousanalysisofphotosystemresponsesof Microcystisaeruginoga under chromiumstress,Ecotoxicologyand EnvironmentalSafety,2013,88,163-168
51. Zhang Daoyong,ExcessCa2+ does notalleviatebutincreasesthetoxicity of Hg2+ tophotosystemIIin Synechocystis sp. (Cyanophyta),EcotoxicologyandEnvironmentalSafety,2013,97,160-165
52. Liu Y, Wang S, Xu S, et al,New evidence for the incision history of the Liuchong River, Southwest China, from cosmogenic 26Al/10Be burial ages in cave sediments,Journal of Asian Earth Sciences,2013, 73,274-283
53. Bai X, Zhang X, Long Y, et al,Use of 137Cs and 210Pbex measurements on deposits in a karst depression to study the erosional response of a small karst catchment in Southwest China to land-use change,Hydrological Processes,2013, 27(6),822-829
54. Bai X Y, Wang S J, Xiong K N,Assessing spatial‐temporal evolution processes of karst rocky desertification land: indications for restoration strategies,land degradation & development,2013, 24(1),47-56
55. Yan J, Wang W, Zhou C, et al,Responses of water yield and dissolved inorganic carbon export to forest recovery in the Houzhai karst basin, southwest China,Hydrological Processes,2014, 28(4),2082-2090
56. Sun L L, Xiao L L, Xiao B, et al,Differences in the gene expressive quantities of carbonic anhydrase and cysteine synthase in the weathering of potassium-bearing minerals by Aspergillus niger,Science China-Earth Sciences,2013, 56(12), 2135-2140
57. Liu Y, Liu C, Wang S, et al,Organic Carbon Storage in Four Ecosystem Types in the Karst Region of Southwestern China,PloS one,2013, 8(2): e56443
58. Luo W, Wang S, Xie X,A comparative study on the stable isotopes from precipitation to speleothem in four caves of Guizhou, China,Chemie der Erde/Geochemistry,2013, 73(2), 205-215
59. Weijun LUO, Shijie W, Xingneng XIE, et al,Stable carbon isotope variations in cave percolation waters and their implications in four caves of Guizhou, China,Acta Geologica Sinica (English Edition),2013, 87(5),1396-1411
60. Luo W, Wang S, Xie X, et al,Temporal and spatial variations in cave percolation water hydro-geochemistry and their implications in four caves of Guizhou, China,Chinese Journal of Geochemistry,2013, 32(2),119-129
61. K. S. Fishmana, V. N. Akimova, N. E. Suzinaa, M. B. Vainshteina, X. Liang,SulfateReducing Bacteria Desulfobulbus sp. Strain BH,Inland Water Biology
62. Pineiro S,Chauhan A,Berhane T,,Niche Partition of Bacteriovorax Operational Taxonomic Units Along Salinity and Temporal Gradients in the Chesapeake Bay Reveals Distinct Estuarine Strains,Microb Ecol,
63. Zhang, Z.H., Hu, G. and Ni, J.,Effects of topographical and edaphic factors on the distribution of plant communities in two subtropical karst forests, southwestern China,Journal of Mountain Science,10(1): 95-104.
64. Zhang, Z.H., Hu, G., Zhu, J.D. and Ni, J.,Aggregated spatial distributions of species in a subtropical karst forest, southwestern China,Journal of Plant Ecology,6(2): 131-140.
65. Cao, X.Y., Ni, J., Herzschuh, U., Wang, Y.B. and Zhao, Y.,A late Quaternary pollen dataset from eastern continental Asia for vegetation and climate reconstructions: set up and evaluation,Review of Palaeobotany and Palynology,194: 21-37.
66. Ni, J.,Carbon storage in Chinese terrestrial ecosystems: approaching a more accurate estimate,Climatic Change,119(3-4): 905-917.
67. Wang, H., Prentice, I.C. and Ni, J.,Data-based modelling and environmental sensitivity of vegetation in China,Biogeosciences,10(9): 5817-5830.
68. Haijing Wang, Hao Yan, Zaihua Liu,Contrasts in variations of the carbon and oxygen isotopic composition of travertines formed in pools and a ramp stream at Huanglong Ravine, China: Implications for paleoclimatic interpretations,Geochimica et Cosmochimica Acta,2014, 125, 34-48
69. Li X-D, Yang Z, Liu B-J, Wu L-J & Wang B-L,Sulfur isotopic compositions of total suspended particulates (TSP) in Chengdu, Southwest China.,Mineralogical Magazine,2013, 77(5): 1601
70. ZHANG Yinfeng, LI Shehong, WANG Hui, WANG Mingguo, ZHENG Baoshan, ZHENG Lirong, YANG Qiang, ZHENG Yan.,Evaluation of Arsenic Speciation of Stream and Hot Spring Deposits through X-ray Absorption Spectroscopy and Sorption Experiment,Acta Geologica Sinica -English Edition,2013, 87(supp.): 665-666.
71. LI Shehong, WANG Mingguo, WANG Hui, ZHAN Yinfeng, ZHENG Baoshan, YANG Qiang, ZHENG Yan,Enrichment of Arsenic in Rivers Originating from the Tibetan Plateau.,Acta Geologica Sinica -English Edition,2013, 87(supp.): 638-639.
72. Shehong Li, Mingguo Wang, Qiang Yang, Jianming Zhu, Baoshan Zheng, Yan Zheng.,Arsenic Enrichment in Surface Water of Singe Tsangpo and Yarlung Tsangbo drainages in Tibet.,Journal of Geochemical Exploration,2013, 135: 104-117
73. Zhu Z.J, Chen J.A., Zeng Y,Abnormal positive δ13C values of carbonate in Lake Caohai, southwest China, and their possible relation to lower temperature.,Quaternary International,2013, 286: 85~93
74. Zhu Z.J., Chen J.A., Li D.H., Ren S.C., Liu F.,Li/Ca ratios of ostracod shells at Lake Qinghai, NE Tibetan Plateau, China: a potential temperature indicator,Environmental Earth Science,2013,67(6):1735-1742
75. Zeng Y., Chen J.A., Xiao J., Qi L,Non-residual Sr of the sediments in Daihai Lake as a good indicator of chemical weathering,Quaternary Research,2013, 79:284~291
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