① 近5年内发表的3篇代表性论著 (1)Li, H., Xu, H., Yang, Y.L., Lu, Y., Yang, X.L*., Zhang, S., Song, H. L. (2020). Antibiotic resistance genes, bacterial communities, and functions in microbial fuel cell constructed wetlands: Response to co-stress of antibiotic and zinc. Environmental Pollution 265, 115084.(中科院一区top, IF:8.071) (2)Li, H., Song, H. L., Xu, H., Lu, Y., Zhang, S., Yang, Y. L., Yang, X. L*., Lu, Y. X. (2020). Effect of the coexposure of sulfadiazine, ciprofloxacin and zinc on the fate of antibiotic resistance genes, bacterial communities and functions in three-dimensional biofilm-electrode reactors. Bioresource Technology 296, 122290.(中科院一区top, IF:9.462) (3)Li, H., Xu, H., Yang, Y. L., Yang, X. L*., Wu, Y., Zhang, S., Song, H. L*. (2019). Effects of graphite and Mn ore media on electro-active bacteria enrichment and fate of antibiotic and corresponding resistance gene in up flow microbial fuel cell constructed wetland. Water Research.165, 114988.(中科院一区top, IF: 11.236) (4)Li, H., Cai, Y., Gu, Z., Yang, Y. L., Zhang, S., Yang, X. L*., Song, H. L*. (2020). Accumulation of sulfonamide resistance genes and bacterial community function prediction in microbial fuel cell-constructed wetland treating pharmaceutical wastewater. Chemosphere 248, 126014.(中科院二区top, IF:7.086) (5)Li, H., Zhang, S., Yang, X. L*., Yang, Y. L., Xu, H., Li, X. N., Song, H. L*. (2019). Enhanced degradation of bisphenol A and ibuprofen by an up-flow microbial fuel cell-coupled constructed wetland and analysis of bacterial community structure. Chemosphere 217, 599-608.(中科院二区top, IF:7.086) (6) Song, H.L#.,Li, H#., Zhang, S., Yang, Y.L., Zhang, L.M*., Xu, H.,Yang, X.L*.(2018). Fate of sulfadiazine and its corresponding resistance genes in up-flow microbial fuel cell coupled constructed wetlands: effects of circuit operation mode and hydraulic retention time. Chemical Engineering Journal. 350, 920-929.(共同第一导师第一,中科院一区top, IF: 13.273) (7)Li, H., Song, H. L#., Yang, X. L*., Zhang, S., Yang, Y.L., Zhang, L.M*., Wang, Y. W. (2018). A continuous flow MFC-CW coupled with a biofilm electrode reactor to simultaneously attenuate sulfamethoxazole and its corresponding resistance genes. Science of the Total Environment, 637, 295-305.(中科院一区top, IF:7.963) (8)Li, H., Yang, X. L*., Song, H. L*., Zhang, S., Long, X. Z. (2018). Effects of direct current on Klebsiella spp. viability and corresponding resistance gene expression in simulative bio-electrochemical reactors.Chemosphere, 196, 251-259.(中科院二区top, IF:7.086) (9)Li, H., Zhang, S., Yang, X. L*., Xu, H., Yang, Y. L., Wang, Y. W., Song, H. L*. (2018). Simulated wastewater reduced Klebsiella michiganensis strain LH-2 viability and corresponding antibiotic resistance gene abundance in bio-electrochemical reactors. Ecotoxicology and Environmental Safety, 162, 376-382.(中科院二区top, IF:6.291) (10)李骅,杨小丽,宋海亮*,张帅,陈桐清.东南大学学报(自然科学版). 2017, 47(2), 410-415 (11)Li, H., Xu, H., Lu, Y., Yang, X.L., Song, H. L. (2021). Effects of co-exposure of antibiotic and Zn onbacterial community and molecular ecological network in continuous flow MFC-CW coupled with abiofilm electrode reactor.Bioresource technology(under review) (top, IF:9.462) (12)Li, H., A Dechesne., BF. Smets. Sublethal current intensity promotes the horizontal transfer ofconjugativeplasmidunder electrochemical disinfectionprocess(In prepration). (13)Wang, Y. W.,Li, H., Wu, Y., Cai, Y., Song, H. L., Zhai, Z. D., Yang, X. L. (2019). In Situ Nutrient Removalfrom Rural Runoff by A New TypeAerobic/Anaerobic/Aerobic Water Spinach Wetlands. Water, 11(5),1100. (14)Zhang, S., Song, H. L., Cao, X.,Li, H., Guo, J., Yang, X. L., Liu, S. (2019). Inhibition of methanogensdecreased sulfadiazine removal and increased antibiotic resistance gene development in microbial fuelcells. BioresourceTechnology, 281, 188-194. (15)Yang, X. L., Zhang, S.,Li, H., Zhang, L. M., Song, H. L., Wang, Y. W. (2018). Effects of voltage onsulfadiazine degradation and the response of sul genes and microbial communities in biofilm-electrodereactors. Ecotoxicology andEnvironmentalSafety, 151, 272-278. (16)Song, H. L., Zhang, S., Guo, J., Yang, Y. L., Zhang, L. M.,Li, H., Liu, X. (2018). Vertical up-flowconstructed wetlands exhibited efficient antibiotic removal but induced antibiotic resistance genes ineffluent. Chemosphere, 203, 434-441. (17)Zhang, S., Yang, X. L.,Li, H., Song, H. L., Wang, R. C., Dai, Z. Q. (2017). Degradation ofsulfamethoxazole in bioelectrochemical system with power supplied by constructed wetland-coupledmicrobial fuel cells. BioresourceTechnology, 244, 345-352. (18)Zhang, S., Yang, X. L.,Li, H., Song, H. L., Wang, R. C., Dai, Z. Q. (2017). Degradation ofsulfamethoxazole in bioelectrochemical system with power supplied by constructed wetland-coupledmicrobial fuel cells. BioresourceTechnology, 244, 345-352. (19)Zhang, S., Song, H. L., Yang, X. L., Huang, S., Dai, Z. Q.,Li, H., Zhang, Y. Y. (2017). Dynamics of antibioticresistance genes in microbial fuel cell-coupled constructed wetlands treating antibiotic-polluted water.Chemosphere, 178, 548-555. (20)Long, X., Pan, Q., Wang, C., Wang, H.,Li, H., Li, X. (2017). Microbial fuel cell-photoelectrocatalytic cellcombined system for the removal of azo dye wastewater. BioresourceTechnology, 244, 182-191. (21)Song, H., Zhang, S., Long, X., Yang, X.,Li, H., Xiang, W. (2017). Optimization of bioelectricitygeneration in constructed wetland-coupled microbial fuel cell systems. Water, 9(3), 185.
会议口头报告 (1)Li hua, Hai-Liang Song*. The 8th International Symposium on Wetland Pollutant Dynamics andControl, WETPOL2019(国际会议)口头报告 (2)Li hua, Hai-Liang Song*. International Workshop on Constructed-WetlandMicrobial Fuel Cell, 2017(国际会议)口头报告 (3)Li hua, Hai-Liang Song*. International Workshop on ConstructeWetland-Microbial Fuel Cell, 2019(国际会议)口头报告 (4)李骅,宋海亮*.中国化学会第十四届全国水处理化学大会暨学术研讨会,上海, 2018(国内会议),墙报展示 (5)李骅,宋海亮*.第十届全国环境化学大会,天津,2019(国内会议),口头报告 (6)李骅,宋海亮*.第三届西北水环境青年学者论坛,兰州2021(国内会议)特邀报告 |
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