[50] Xu, X., Jiang, H., Lu, Q., Wang, S., 2024. Pre-exposure of Triclosan compromise tetracycline-derived antibiotic resistance in methanogenic digestion microbiome. Bioresource Technology 401, 130758.

 [49] Jiang, H, Gao, W, Lu, Q, Wang, S, Carbon/Nitrogen Flows and Associated Microbial Communities in Full-Scale Foodwaste Treatment Plants. BIORESOURCE TECHNOL 2023, 388, 129775-129775.

 [48]  Liu X, Zhang L, Shen R, Lu Q, Zeng Q, Zhang X, He Z, Rossetti S, Wang S. Reciprocal Interactions of Abiotic and Biotic Dechlorination of Chloroethenes in Soil. ENVIRON SCI TECHNOL. 2023 2023-09-04.

  [47] Wang, S., Lu, Q., Liang, Z., Yu, X., Lin, M., Mai, B., Qiu, R., Shu, W., He, Z., & Wall, J. D., 2023. Generation of zero-valent sulfur from dissimilatory sulfate reduction in sulfate-reducing microorganisms. PNAS, 120(20)

   [46] Liang, Z., Abdillah, A., Fang, W., Qiu, R., Mai, B., He, Z., Juneau, P., Gomes, M.P., Priadi, C.R., Wang, S., 2022, Unique microbiome in organic matter–polluted urban rivers. GLOBAL CHANGE BIOL.

［45］Wu, R., Zhang, S., Wang, S., 2022, Development and microbial characterization of Bio-RD-PAOP for effective remediation of polychlorinated biphenyls. J HAZARD MATER 436, 129190.

［44］Shi, J., Li, H., Jiang, Z., Wang, C., Sun, L., Wang, S., 2022, Impact of substrate digestibility on microbial community stability in methanogenic digestors: The mechanism and solution. Bioresour Technol 352, 127103.

［43］Liang, Y., Lu, Q., Liang, Z., Liu, X., Fang, W., Liang, D. Kuang, J., Qiu, R., He, Z., Wang, S*. 2021. Substrate-dependent competition and cooperation relationships between Geobacter and Dehalococcoides for their organohalide respiration. ISME Commun. 1, 23.

［42］Lu, Q., Liu, J., He, H., Liang, Z., Qiu, R., Wang, S*. 2021. Waste activated sludge stimulates in situ microbial reductive dehalogenation of organohalide-contaminated soil. J. Hazard. Mater. 411, 125189.

［41］Lu, Q., Liang, Y., Fang, W., Guan, K., Huang, C., Qi, X., Liang, Z., Zeng, Y., Luo, X., He, Z., Mai, B., Wang, S*. 2021. Spatial Distribution, Bioconversion and ecological risk of PCBs and PBDEs in the surface sediment of contaminated urban rivers: a nationwide study in China. Environ. Sci. Technol. 55, 14, 9578-9590.

［40］Liang, Z., Fang, W., Luo, Y., Lu, Q., Juneau, P., He, Z., Wang, S*. 2021. Mechanistic insights into organic carbon-driven water blackening and odorization of urban rivers. J. Hazard. Mater. 405, 124663.

［39］Wu, B., Liu, F., Fang, W., Yang, T., Chen, G.H., He, Z., Wang, S*. 2021. Microbial sulfur metabolism and environmental implications. Sci. Total Environ. 778, 146085.

［38］Shen, R., Yu, L., Xu, P., Liang, Z., Lu, Q., Liang, D., He, Z., Wang, S*. 2021. Water content as a primary parameter determines microbial reductive dechlorination activities in soil. Chemosphere, 267, 129152.

［37］Liang, Z., Xu, G., Shi, J., Yu, S., Lu, Q., Liang, D., Sun, L., Wang, S*. 2021. Sludge digestibility and functionally active microorganisms in methanogenic sludge digesters revealed by E. coli-fed digestion and microbial source tracking. Environ. Res. 193, 110539.

［36］Liang, Z., Shi, J., Wang, C., Li, J., Liang, D., Yong, E.L., He, Z., Wang, S*. 2020. Genome-centric metagenomic insights into the impact of alkaline/acid and thermal sludge pre-treatment on digestion sludge microbiome. Appl. Environ. Microb. 86,   e01920-20.

［35］Lu, Q., Yu, Z., Wang, L., Liang, Z., Li, H., Sun, L., Shim, H., Qiu, R., Wang, S*. 2020. Sludge pre-treatments change performance and microbiome in methanogenic sludge digesters by releasing different sludge organic matter. Bioresource Technol. 316, 123909.

［34］Qiu, L., Fang, W., He, H., Liang, Z., Zhan, Y., Lu, Q., Liang, D., He, Z., Mai, B., Wang, S*. 2020. Organohalide-respiring bacteria in polluted urban rivers employ novel bifunctional reductive dehalogenases to dechlorinate polychlorinated biphenyls and tetrachloroethene. Environ. Sci. Technol. 54, 8791-8800.

［33］Wang, S., Yu, S., Lu, Q., Liao, Y., Li, H., Sun, L., Wang, H., Zhang, Y. 2020. Development of an alkaline/acid pre-treatment and anaerobic digestion (APAD) process for methane generation from waste activated sludge. Sci. Total Environ. 708, 134564.

［32］Lu, Q., Zou, X., Liu, J., Liang, Z., Shim, H., Qiu, R., Wang, S*. 2020. Inhibitory effects of metal ions on reductive dechlorination of polychlorinated biphenyls and perchloroethene in distinct organohalide-respiring bacteria. Environ. Int. 135, 105373.

［31］Fang, W., Liang, Z., Liu, Y., Liao, J., Wang, S*. 2019. Metagenomic insights into production of zero valent sulfur from dissimilatory sulfate reduction in a methanogenic bioreactor. Bioresource Technol. Rep. 8, 100305.

［30］Lu, Q., Yu, Z., Yu, S., Liang, Z., Li, H., Sun, L., Wang, S*. 2019. Organic matter rather than salinity as a predominant feature changes performance and microbiome in methanogenic sludge digesters. J. Hazard. Mater. 377, 349-356.

［29］Wang, S., Chen, C., Zhao, S., He, J. 2019. Microbial synergistic interactions for reductive dechlorination of polychlorinated biphenyls. Sci. Total Environ. 666, 368-376.

［28］Lu, Q., Qiu, L., Yu, L., Zhang, S., Toledo, R.A., Shim, H., Wang, S*. 2019. Microbial transformation of chiral organohalides: Distribution, microorganisms and mechanisms. J. Hazard. Mater. 368, 849-861.

［27］Xu, G., Lu, Q., Yu, L., Wang, S*. 2019. Tetrachloroethene primes reductive dechlorination of polychlorinated biphenyls in a river sediment microcosm. Water Res. 152, 87-95.

［26］Wang, S., He, J., Shen, C., Manefield, M.J. 2019. Organohalide respiration: new findings in metabolic mechanisms and bioremediation applications. Front. Microbiol. 10, 526.

［25］Wang, S., Qiu, L., Liu, X., Xu, G., Siegert, M., Lu, Q., Juneau, P., Yu, L., Liang, D., He, Z., Qiu, R. 2018. Electron transport chains in organohalide-respiring bacteria and bioremediation implications. Biotechnol. Adv. 36, 1194-1206.

［24］Yu, L., Qiu, Y., Yu, Y., Wang, S*. 2018. Reductive decolorization of azo dyes via in situ generation of green tea extract-iron chelate. Environ. Sci. Pollut. R. 25, 17300-17309.

［23］Liang, Z., Siegert, M., Fang, W., Sun, Y., Jiang, F., Lu, H., Chen, G.H., Wang, S*. 2018. Blackening and odorization of urban rivers: a bio-geochemical process. FEMS Microbiol. Ecol. 94, fix180.

［22］Lu, Q., Yu, L., Liang, Z., Yan, Q., He, Z., Luan, T., Liang, D., Wang, S*. 2017. Dehalococcoides as a potential biomarker evidence for uncharacterized organohalides in environmental samples. Front. Microbiol. 8, 1677.

［21］Wang, S., Chen, S., Wang, Y., Low, A., Lu, Q., Qiu, R. 2016. Integration of organohalide-respiring bacteria and nanoscale zero-valent iron (Bio-nZVI-RD): a perfect marriage for the remediation of organohalide pollutants? Biotechnol. adv. 34, 1384-1395.

［20］Wang, S.,* and Liang Z. (2016) Acetate-induced granular sludge floatation in methanogenic bioreactors. Water Res. 107:93-101.

［19］Wang, S.,* Chen, S., Wang, Y., Low, A., Lu, Q., Qiu, R.* (2016) Integration of organohalide-respiring bacteria and nanoscale zero-valent iron (Bio-nZVI-RD): a perfect marriage for the remediation of organohalide pollutants? Biotechnol. Adv. 34(8):1384-1395.

［18］Wang, S., Chng, K.R., Wu, C., Bedard, D.L.,* and He, J.* (2015) Genomic characterization of Dehalococcoides mccartyi strain JNA that reductively dechlorinate perchloroethene and polychlorinated biphenyls. Environ. Sci. Technol. 49(24):14319-25.

［17］Wang, S.,† Chng, K.R.,† Wilm, A., Zhao, S., Nagarajan, N.,* and He, J.*. (2014) Genomic characterization of three unique Dehalococcoides that respire on persistent polychlorinated biphenyls. PNAS. 111(33):12103-8. †These authors contributed equally. (Featured as PNAS cover story, and highlighted in Science Daily, Lianhe Zaobao, Asian Scientist Magazine, Dredgingtoday and BioSpace)

［16］Wang, S.,† Fan, C.,† Low, A., and He, J.* (2014) Comparison of microbial communities in sequencing batch reactors (SBRs) exposed to trace erythromycin and erythromycin-H2O. Appl. Microbiol. Biotechnol. 98(6):2667-73. †These authors contributed equally.

［15］Wang, S., Lim, X., Yang, K., and He, J.* (2014) Isolation and characterization of a novel Dehalobactersp. strain TCP1 that reductively dechlorinates 2,4,6-trichlorophenol. Biodegradation. 25(2):313-23.

［14］Wang, S., and He, J.* (2013) Dechlorination of commercial PCBs and multiple other halogenated compounds by a sediment-free culture containing Dehalococcoides and Dehalobacter. Environ. Sci. Technol. 47(18):10526-34.

   [13]  Wang, S., and He, J.* (2013) Phylogenetically distinct bacteria involve extensive dechlorination of Aroclor 1260 in sediment-free cultures. PLoS ONE. 8(3):e59178.

  [12]  Wang, S., and He, J.* (2012) Two-step denaturing gradient gel electrophoresis (2S-DGGE), a gel-based strategy to get full-length 16S rRNA gene sequences. Appl. Microbiol. Biotechnol. 95(5):1305-12.

  [11]  Wang, S., and He, J.* (2011) Separation of fluorescence-labelled terminal restriction fragment DNA on a two-dimensional gel (T-RFs-2D) - an efficient approach for microbial consortium characterization. Environ. Microbiol. 13(9):2565-75.

  [10]  Wang, S., Chng, K.R., Wu, C., Wilm, A., Nagarajan, N., and He, J.* (2014) Draft genome of Dehalococcoides mccartyi strain SG1 that carries a circular plasmid. Genome Announce. 2(5):e00901-14.

［9］ Lee, P.K.H., Men, Y., Wang, S., He, J., and Alvarez-Cohen, L.* (2015) Development of a fluorescence-activated cell sorting, whole genome amplification and microarray method to analyze Dehalococcoides genomes. Environ. Sci. Technol. DOI: 10.1021/es503888y.

［8］ Chow, W.L., Cheng, D., Wang, S., and He, J.* (2010) Identification and transcriptional analysis of trans-DCE-producing reductive dehalogenases in Dehalococcoides species. ISME J. 4:1020-30.

［7］ Wang, S., Zhang, S., Zhou, W. and Zhu, J.* (2011) Acrylic wastewater treatment using SBR technology with aerobic granules. Int. J. Environment and Waste Management. 7:80-89.

［6］ Wang, S., Kong, Y., Yuan, Y., Dong, X., and Zhu, J.* (2008) Filamentous overgrowth in aerobic granules. Huan Jing Ke Xue. 29(3):696-702.

［5］ Wang, S., Yuan, Y., Kong, Y., and Zhu, J.* (2008) Experimental investigation of high saline wastewater treatment using aerobic granules. Huan Jing Ke Xue. 29(1):145-51.

［4］ Wang, S., Li, X., and Zhu, J.* (2007) Experimental Investigation of High Strength Vc Wastewater Treatment Using UASB. China Biogas. 25(1):9-13.

［3］ Wang, S., and Zhu, J.* (2007) Factor analysis for aerobic-granulation in activated sludge process. Environmental Pollution and Control. 29(2):115-8.

［2］ Wang, S., Zhang, S., Li, X., and Zhu, J.* (2007) Experimental investigation of aerobic granulation in high strength Vc wastewater. Huan Jing Ke Xue. 28(10):2243-8·   

［1］ Yuan, Y., Wang, S., Zhu, J., Fan, K., Gu, J., and Zhang, C.* (2007) Investigation on the Impact of Microbial Community on Off-Flavor of Raw Water in Miyun Reservoir. Research of Environmental Sciences. 20(6):57-62.

 

专 利 技 术

［5］汪善全, 方文稳, 梁志伟, 谷漫飞 . 一种野外深水水样及沉积物样品采集装置. 实用新型专利, 申请号：201720171803.2(2017.2)

［4］汪善全, 王玉, 仇荣亮. 一种利用植物多酚类物质原位合成铁基材料去除六价铬及染料污染物的方法. 发明专利, 申请号：201710104040.4(2017.2)

［3］汪善全, 张杨, 鲁祺鸿, 颜丙花, 余思宁, 周苗苗. 一种利用双极膜电渗析装置电解盐产酸产碱提高污泥可消化性的方法. 发明专利, 申请号：201710103138.8(2017.2)

［2］汪善全, 梁志伟. 一种降低污水升流式厌氧处理过程中厌氧活性颗粒污泥上浮的方法. 发明专利, 申请号：201610830532.7(2016.9)

［1］汪善全, 陈思媛. 一种可调控厌氧程度的厌氧操控综合系统. 实用新型专利, 专利号：ZL201620746953.7(授权日期2017.1.18)