一作及通讯作者文章
1. Wang JX., Man Y., Yin RS., Feng XB. 2022. Isotopic and Spectroscopic Investigation of Mercury Accumulation in Houttuynia cordata Colonizing Historically Contaminated Soil. Environmental Science and Technology. 56, 7997?8007 (NI期刊)
2. Wang JX, Ma LQ, Letcher R, Bradford S, Feng XB, Rinklebe J. 2022. Biogeochemical cycle of mercury and controlling technologies: Publications in critical reviews in Environmental Science & Technology in the period of 2017–2021, Critical Reviews in Environmental Science and Technology, DOI: 10.1080/10643389.2022.2071210 (中科院1区;主编特邀)
3. Xing Y, Wang JX*, Kinder CES, Yang X, Slany M, Wang B, Song H, Shaheen SM, Leinweber P, Rinklebe J*. 2022. Rice hull biochar enhances the mobilization and methylation of mercury in a soil under changing redox conditions: Implication for Hg risks management in paddy fields. Environment International. 168:107484. (中科院1区)
4. Wang JX., Sabry M. Shaheen., Min Jing., Christopher W. N. Anderson., Ann-Christin Swertz., Shan-Li Wang., Xinbin Feng., Jorg Rinklebe. 2021. Mobilization, Methylation, and Demethylation of Mercury in a Paddy Soil Under Systematic Redox Changes. Environmental Science and Technology. 50(14), 10133-10141(NI期刊)
5. Xia JC., Wang JX.,* Zhang LM., Anderson CWN., Wang X., Zhang H., Dai ZH., Feng XB.,* 2020. Screening of native low mercury accumulation crops in a mercury polluted mining region: Agricultural planning to manage mercury risk in farming communities, Journal of Cleaner Production, 262. (中科院1区)
6. Wang JX.,* Shaheen SM., Anderson CWN., Xing Y., Liu SR., Xia JC., Feng XB.,* J?rg Rinklebe., 2020. Nanoactivated Carbon Reduces Mercury Mobility and Uptake by Oryza sativa L: Mechanistic Investigation Using Spectroscopic and Microscopic Techniques, Environmental Science and Technology, 54(5): 2698-2706 (NI期刊)
7. Xing, Y., Wang, J.*, Shaheen, S.M., Feng, X., Chen, Z., Zhang, H., Rinklebe, J.*, 2019. Mitigation of mercury accumulation in rice using rice hull-derived biochar as soil amendment: A field investigation. Journal of Hazardous Materials. https://doi.org/10.1016/j.jhazmat.2019.121747 (中科院1区)
8. Wang, J., Sun, X., Xing, Y., Xia, J.C., Feng, X., 2019. Immobilization of mercury and arsenic in a mine tailing from a typical Carlin-type gold mining site in southwestern part of China. Journal of Cleaner Production 240, 118171 (中科院1区)
9. Wang, J., Xing, Y., Xie, Y., Meng, Y., Xia, J., Feng, X., 2019. The use of calcium carbonate-enriched clay minerals and diammonium phosphate as novel immobilization agents for mercury remediation: Spectral investigations and field applications. Science of The Total Environment 646, 1615-1623. (2019 highlighly cited paper )
10. Wang, J., Shaheen, S.M., Swertz, A.-C., Rennert, T., Feng, X., Rinklebe, J., 2019. Sulfur-modified organoclay promotes plant uptake and affects geochemical fractionation of mercury in a polluted floodplain soil. Journal of Hazardous Materials 371, 687-693. (中科院1区)
11. Liu, J., Wang, J*., Ning, Y., Yang, S., Wang, P., Shaheen, S.M., Feng, X., Rinklebe, J., 2019. Methylmercury production in a paddy soil and its uptake by rice plants as affected by different geochemical mercury pools. Environment International 129, 461-469. (中科院1区)
12. Liu, T., Wang, J*., Feng, X*., Zhang, H., Zhu, Z., Cheng, S., 2019. Spectral insight into thiosulfate-induced mercury speciation transformation in a historically polluted soil. Science of The Total Environment 657, 938-944. (中科院2区)
13. Shaheen, S.M1., Wang, J1., Swertz, A.-C., Feng, X., Bolan, N., Rinklebe, J., 2019. Enhancing phytoextraction of potentially toxic elements in a polluted floodplain soil using sulfur-impregnated organoclay. Environmental Pollution 248, 1059-1066.(co-first author) (中科院2区)
14. Xing, Y., Wang, J.*, Xia, J., Liu, Z., Zhang, Y., Du, Y., Wei, W., 2019. A pilot study on using biochars as sustainable amendments to inhibit rice uptake of Hg from a historically polluted soil in a Karst region of China. Ecotoxicology and Environmental Safety 170, 18-24. (中科院2区)
15. Wang, J., Anderson, C.W.N., Xing, Y., Fan, Y., Xia, J., Shaheen, S.M., Rinklebe, J., Feng, X., 2018. Thiosulphate-induced phytoextraction of mercury in Brassica juncea: Spectroscopic investigations to define a mechanism for Hg uptake. Environmental Pollution 242, 986-993. (中科院2区)
16. Wang, J., Xing, Y., Li, P., Xia, J., Liu, T., Feng, X., 2018. Chemically-assisted phytoextraction from Metal(loid)s-polluted Soils at A Typical Carlin-type Gold Mining Area in Southwest China. Journal of Cleaner Production 189, 612-619 (中科院1区)
17. Wang, J.X., Xia, J.C., Feng, X.B., 2017. Screening of chelating ligands to enhance mercury accumulation from historically mercury-contaminated soils for phytoextraction. Journal of Environmental Management 186, 233-239. (中科院2区)
18. Wang, J.X., Feng, X.B., Anderson, C.W.N., Wang, H., Wang, L.L., 2014. Thiosulphate-induced mercury accumulation by plants: metal uptake and transformation of mercury fractionation in soil - results from a field study. Plant and Soil 375(1-2), 21-33. (中科院1区)
19. Wang, J.X., Feng, X.B., Anderson, C.W.N., Qiu, G.L., Bao, Z.D., Shang, L.H., 2014. EFFECT OF CROPPING SYSTEMS ON HEAVY METAL DISTRIBUTION AND MERCURY FRACTIONATION IN THE WANSHAN MINING DISTRICT, CHINA: IMPLICATIONS FOR ENVIRONMENTAL MANAGEMENT. Environmental Toxicology and Chemistry 33(9), 2147-2155.
20. Wang, J.X., Feng, X.B., Anderson, C.W.N., Wang, H., Zheng, L.R., Hu, T.D., 2012. Implications of Mercury Speciation in Thiosulfate Treated Plants. Environmental Science Technology. 46(10), 5361-5368. (中科院1区)
21. Wang, J.X., Feng, X.B., Anderson, C.W.N., Xing, Y., Shang, L.H., 2012. Remediation of mercury contaminated sites - A review. Journal of Hazardous Materials 221, 1-18. (2014-2019 highlighly cited paper )
22. Wang, J., Feng, X., Anderson, C.W., Qiu, G., Ping, L., Bao, Z., 2011. Ammonium thiosulphate enhanced phytoextraction from mercury contaminated soil--results from a greenhouse study. J Journal of Hazardous Materials 186(1), 119-127. (中科院1区)
23. Wang, J., Feng, X., Anderson, C.W., Zhu, W., Yin, R., Wang, H., 2011. Mercury distribution in the soil–plant–air system at the Wanshan mercury mining district in Guizhou, Southwest China. Environmental Toxicology and Chemistry 30(12), 2725-2731.
二、其他合作发表文章
1. Manceau, A., Wang, J., Rovezzi, M., Glatzel, P., Feng, X., 2018. Biogenesis of Mercury–Sulfur Nanoparticles in Plant Leaves from Atmospheric Gaseous Mercury. Environmental Science Technology. 52(7):3935-3948.
2. Man, Y., Yin, R., Cai, K., Qin, C., Wang, J., Yan, H., Li, M., 2019. Primary amino acids affect the distribution of methylmercury rather than inorganic mercury among tissues of two farmed-raised fish species. Chemosphere 225, 320-328.
3. Salam, A., Shaheen, S.M., Bashir, S., Khan, I., Wang, J., Rinklebe, J., Rehman, F.U., Hu, H., 2019. Rice straw- and rapeseed residue-derived biochars affect the geochemical fractions and phytoavailability of Cu and Pb to maize in a contaminated soil under different moisture content. J Environ Manage 237, 5-14.
4. Shaheen, S.M., Balbaa, A.A., Khatab, A.M., Antoniadis, V., Wang, J., Rinklebe, J., 2019. Biowastes alone and combined with sulfur affect the phytoavailability of Cu and Zn to barnyard grass and sorghum in a fluvial alkaline soil under dry and wet conditions. J Environ Manage 234, 440-447.
5. Shaheen, S.M., Abdelrazek, M.A.S., Elthoth, M., Moghanm, F.S., Mohamed, R., Hamza, A., El-Habashi, N., Wang, J., Rinklebe, J., 2019. Potentially toxic elements in saltmarsh sediments and common reed (Phragmites australis) of Burullus coastal lagoon at North Nile Delta, Egypt: A survey and risk assessment. Science of The Total Environment 649, 1237-1249.
6. Li, P., Zhang, J., Wang, J., Li, Z., 2015. Heavy metal(loid) pollution in mine wastes of a Carlin-type gold mine in southwestern Guizhou, China and its environmental impacts. Chinese Journal of Geochemistry 34(3), 311-319.
7. Meng, B., Feng, X., Qiu, G., Anderson, C.W.N., Wang, J., Zhao, L., 2014. Localization and Speciation of Mercury in Brown Rice with Implications for Pan-Asian Public Health. Environ Sci Technol 48(14), 7974-7981.
8. Li, P., Feng, X., Qiu, G., Zhang, J., Meng, B., Wang, J., 2013. Mercury speciation and mobility in mine wastes from mercury mines in China. Environmental Science and Pollution Research 20(12), 8374-8381
9. Yin, R.S., Feng, X.B., Wang, J.X., Bao, Z.D., Yu, B., Chen, J.B., 2013a. Mercury isotope variations between bioavailable mercury fractions and total mercury in mercury contaminated soil in Wanshan Mercury Mine, SW China. Chemical Geology 336, 80-86.
10. Yin, R.S., Feng, X.B., Wang, J.X., Li, P., Liu, J.L., Zhang, Y., Chen, J.B., Zheng, L.R., Hu, T.D., 2013b. Mercury speciation and mercury isotope fractionation during ore roasting process and their implication to source identification of downstream sediment in the Wanshan mercury mining area, SW China. Chemical Geology 336, 72-79.
11. Yin, R., Feng, X., Li, Z., Zhang, Q., Bi, X., Li, G., Liu, J., Zhu, J., Wang, J., 2012. Metallogeny and environmental impact of Hg in Zn deposits in China. Applied Geochemistry 27(1), 151-160.
12. Li, Z., Feng, X., Li, G., Bi, X., Sun, G., Zhu, J., Qin, H., Wang, J., 2011. Mercury and other metal and metalloid soil contamination near a Pb/Zn smelter in east Hunan province, China. Applied Geochemistry 26(2), 160-166.
13. Fu, X.W., Feng, X., Dong, Z.Q., Yin, R.S., Wang, J.X., Yang, Z.R., Zhang, H., 2010. Atmospheric gaseous elemental mercury (GEM) concentrations and mercury depositions at a high-altitude mountain peak in south China. Atmos. Chem. Phys. 10(5), 2425-2437.
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