赵建亮,研究员,博士生导师,副院长。主要从事新污染物环境分析、行为归趋、环境毒理及代谢组学研究。发表SCI论文150篇,编写专著5部,授权专利1项。ISI Web of Science统计的SCI论文他引12000余次,h-index达到58。承担国家自然科学基金联合基金重点项目、国家重点研发计划课题、国家自然科学基金面上、广东省自然科学基金、中国博士后特别资助和面上项目、中国科学院知识创新重要方向性项目、国家自然科学基金重点项目子课题等。获广东省科技进步二等奖和广东省环境保护科技奖各1项。学术兼职主要有《生态毒理学报》编委/责任副主编、《环境科学》青年编委、《JEEA》编委、广东省发展和改革委员会战略专家库专家、第一届广东省危险废物鉴别专家委员会专家、广东省环境科学学会生态毒理学与环境毒理学专业委员会委员/秘书长等。
联系电话:020-39311065
Email:jianliang.zhao@m.scnu.edu.cn; zhaojianliang@gmail.com
个人主页:http://faculty.scnu.edu.cn/jianliangzhao
个人学术网页:ResearchGate
欢迎环境科学与工程、分析化学、生态毒理学等相关专业背景的优秀本科毕业生报考研究生;欢迎相关方向的优秀青年才俊加入,如:环境科学、环境工程、分析化学、生态毒理学、环境地球化学等。
研究领域:
(1)水体新污染物(微塑料、内分泌干扰物、药物与个人护理品、工业化学品等)环境分析、筛查及归趋研究;
(2)新污染物的生态毒理效应及环境代谢组学研究;
(3)新污染物风险评价及优先污染物筛选研究。
主要承担和参与的项目:
国家自然科学基金联合基金重点项目,“粤港澳大湾区道路地表径流毒害污染物的污染特征及环境效应”,2022.01-2025.12,260万元,主持。
国家重点研发计划课题,“场地环境中抗生素及抗性基因污染特征研究”,2020.11-2024.10,369万元,主持。
广东省基础与应用基础研究面上项目,“日常橡胶制品中对苯二胺类物质在垃圾填埋场的环境归趋研究”,2024.01-2026.12,15万元,主持。
国家自然科学基金面上项目,“典型酚类内分泌干扰物鱼体代谢机制及毒代动力学模拟研究”,2019.1-2022.12,61万元,主持。
广东省自然科学基金面上项目,“微塑料对典型内分泌干扰物的吸附及生物富集影响机制研究”,2018.5-2021.4,10万元,主持。
国家自然科学基金-广东联合基金,2018.1-2021.12,284万元,参与。
广东省科技厅应用型科技研发专项,2016.1-2018.12,研究骨干。
国家自然科学基金青年基金,2012.1-2014.12,26万元,主持。
中国博士后科学基金第五批特别资助项目,10万元,主持。
国家自然科学基金-广东联合基金,2012.1-2015.12,240万元,参与。
广东省自然科学基金博士启动,2011.10-2013.10,3万元,主持。
国家自然科学基金重点项目,2011.1-2014.12,子课题主持(15万元)。
中科院重要方向性项目,2011.1-2013.12,子课题主持(40万元)。
国家水体污染与控制重大专项东江项目课题,2008-2012、2014-2017,研究骨干。
代表性论文论著:
[1] Liu Y-H, Mei Y-X, Wang J-Y, Chen S-S, Chen J-L, Li N, Liu W-R, Zhao J-L*, Zhang Q-Q*, Ying G-G. Precipitation contributes to alleviating pollution of rubber-derived chemicals in receiving watersheds: Combining confluent stormwater runoff from different functional areas. Water Research, 2024, 264: 122240.
[2] Liu Y-H, Mei Y-X, Liang X-N, Ge Z-Y, Huang Z, Zhang H-Y, Zhao J-L*, Liu A, Shi C, Ying G-G. Small-Intensity Rainfall Triggers Greater Contamination of Rubber-Derived Chemicals in Road Stormwater Runoff from Various Functional Areas in Megalopolis Cities. Environmental Science & Technology, 2024, 58(29): 13056-13064.
[3] Zhang H-Y, Liu Y-H, Wei L-N, Zhu R-Q, Zhao J-L*, Liu S*, Xu X-R, Ying G-G. Unveiling spatiotemporal distribution, partitioning, and transport mechanisms of tire additives and their transformation products in a highly urbanized estuarine region. Science of the Total Environment, 2024, 954: 176804.
[4] Wei L-N, Wu N-N, Xu R, Liu S*, Li H-X, Lin L, Hou R, Xu X-R, Zhao J-L*, Ying G-G. First Evidence of the Bioaccumulation and Trophic Transfer of Tire Additives and Their Transformation Products in an Estuarine Food Web. Environmental Science & Technology, 2024. 58(14): 6370-6380.
[5] Zhang Y-Y, Huang J-W, Liu Y-H, Zhang J-N, Huang Z, Liu Y-S, Zhao J-L*, Ying G-G. In vitro metabolism of the emerging contaminant 6PPD-quinone in human and rat liver microsomes: Kinetics, pathways, and mechanism. Environmental Pollution, 2024, 345: 123514.
[6] Yao L, Liu Y-H, Zhou X, Yang J-H, Zhao J-L*, Chen Z-Y*. Uptake, tissue distribution, and biotransformation pattern of triclosan in tilapia exposed to environmentally-relevant concentrations. Science of the Total Environment, 2024, 922: 171270.
[7] Zhao J-L, Yao L. 2024. Fragrances in Surface Waters. In: Ratola N, Homem V (Eds.), Fragrances in the Environment. Cham: Springer International Publishing, 107-137.
[8] Huang Z, Hu L-X, Yang J-B, Liu Y-S, He L-Y, Zhao J-L*, Ying G-G. Comprehensive discovery and migration evaluation of antimicrobial drugs and their transformation products in a swine farm by target, suspect, and nontarget screening. Environment International, 2023, 181: 108304.
[9] Zhao J-L*, Yao L. Fragrances in Surface Waters. in. Springer Berlin Heidelberg, Berlin, Heidelberg, 2023. pp 1-31.
[10] Zhang H-Y, Huang Z, Liu Y-H, Hu L-X, He L-Y, Liu Y-S, Zhao J-L*, Ying G-G. Occurrence and risks of 23 tire additives and their transformation products in an urban water system. Environment International, 2023, 171: 107715.
[11] Zhang H-Y, Zhang C-Y, Rao W-L, Zhang H, Liang G-H, Deng X, Zhao J-L*, Guan Y-F*, Ying G-G. Influence of biofilms on the adsorption behavior of nine organic emerging contaminants on microplastics in field-laboratory exposure experiments. Journal of Hazardous Materials, 2022, 434: 128895.
[12] Liu YH, Yao L, Huang Z, Zhang YY, Chen CE, Zhao JL*, Ying GG. Enhanced prediction of internal concentrations of phenolic endocrine disrupting chemicals and their metabolites in fish by a physiologically based toxicokinetic incorporating metabolism (PBTK-MT) model. Environmental Pollution, 2022, 314: 120290.
[13] Yao L, Chen ZY, Dou WY, Yao ZK, Duan XC, Chen ZF, Zhang LJ, Nong YJ, Zhao JL*, Ying GG. Occurrence, removal and mass loads of antiviral drugs in seven wastewater treatment plants with various treatment processes. Water Research, 2021, 207: 117803.
[14] Zhao JL, Huang Z, Zhang QQ, He LY, Wang TT, Yang YY, Ying GG. Distribution and mass loads of xenoestrogens bisphenol a, 4-nonylphenol, and 4-tert-octylphenol in rainfall runoff from highly urbanized regions: A comparison with point sources of wastewater. Journal of Hazardous Materials, 2021, 401: 123747.
[15] Liu Y-H, Lv Y-Z, Huang Z, Guan Y-F, Huang J-W, Zhao J-L*, Ying G-G. Uptake, elimination, and toxicokinetics of selected pharmaceuticals in multiple tissues of Nile tilapia (Oreochromis niloticus) exposed to environmentally relevant concentrations. Ecotoxicology and Environmental Safety, 2021, 226: 112874.
[16] Huang Z, Zhao JL*, Zhang CY, Rao WL, Liang GH, Zhang H, Liu YH, Guan YF, Zhang HY, Ying GG. 2021. Profile and removal of bisphenol analogues in hospital wastewater, landfill leachate, and municipal wastewater in South China. Science of the Total Environment, 790: 148269.
[17] Zhang M, Liu Y-S, Zhao J-L, Liu W-R, Chen J, Zhang Q-Q, He L-Y, Ying G-G. Variations of antibiotic resistome in swine wastewater during full-scale anaerobic digestion treatment. Environment International, 2021, 155: 106694.
[18] Zhang JN, Chen J, Yang L, Zhang M, Yao L, Liu YS, Zhao JL, Zhang B, Ying GG. Occurrence and fate of androgens, progestogens and glucocorticoids in two swine farms with integrated wastewater treatment systems. Water Research, 2021, 192: 116836.
[19] Cheng Y-X, Chen J, Wu D, Liu Y-S, Yang Y-Q, He L-X, Ye P, Zhao J-L, Liu S-S, Yang B, Ying G-G. Highly enhanced biodegradation of pharmaceutical and personal care products in a novel tidal flow constructed wetland with baffle and plants. Water Research, 2021, 193: 116870.
[20] Xiong Q, Hu L-X, Liu Y-S, Zhao J-L, He L-Y, Ying G-G. Microalgae-based technology for antibiotics removal: From mechanisms to application of innovational hybrid systems. Environment International, 2021, 155: 106594.
[21] Huang Z, Zhao JL*, Yang YY, Jia YW, Zhang QQ, Chen CE, Liu YS, Yang B, Xie L, Ying GG. Occurrence, mass loads and risks of bisphenol analogues in the Pearl River Delta region, South China: Urban rainfall runoff as a potential source for receiving rivers. Environmental Pollution, 2020, 263: 114361.
[22] Jia YW, Huang Z, Hu LX, Liu S, Li HX, Li JL, Chen CE, Xu XR*, Zhao JL*, Ying GG. Occurrence and mass loads of biocides in plastic debris from the Pearl River system, South China. Chemosphere, 2020, 246: 125771.
[23] Jin M, Yu X, Yao Z, Tao P, Li G, Yu X, Zhao JL, Peng J. How biofilms affect the uptake and fate of hydrophobic organic compounds (HOCs) in microplastic: Insights from an In situ study of Xiangshan Bay, China. Water Research, 2020, 184: 116118.
[24] Wang TT, Ying GG, Shi WJ, Zhao JL, Liu YS, Chen J, Ma DD, Xiong Q. Uptake and Translocation of Perfluorooctanoic Acid (PFOA) and Perfluorooctanesulfonic Acid (PFOS) by Wetland Plants: Tissue- and Cell-Level Distribution Visualization with Desorption Electrospray Ionization Mass Spectrometry (DESI-MS) and Transmission Electron Microscopy Equipped with Energy-Dispersive Spectroscopy (TEM-EDS). Environmental Science & Technology, 2020, 54(10): 6009-6020.
[25] Lv YZ, Yao L, Wang L, Liu WR*, Zhao JL*, He LY, Ying GG. Bioaccumulation, metabolism, and risk assessment of phenolic endocrine disrupting chemicals in specific tissues of wild fish. Chemosphere, 2019, 226: 607-615.
[26] Liu S, Su H, Li HX, Liu JJ, Lin L, Xu XR#, Zuo LZ, Zhao JL*. Uptake, Elimination, and Biotransformation Potential of a Progestagen (Cyproterone Acetate) in Tilapia Exposed at an Environmental Concentration. Environmental Science & Technology, 2019, 53(12): 6804-6813.
[27] Zhang M, Liu YS, Zhao JL, Liu WR, He LY, Zhang JN, Chen J, He LK, Zhang QQ, Ying GG. Occurrence, fate and mass loadings of antibiotics in two swine wastewater treatment systems. Science of the Total Environment, 2018, 639: 1421-1431.
[28] Yao L, Lv YZ, Zhang LJ, Liu WR, Zhao JL*, Yang YY, Jia YW, Liu YS, He LY, Ying GG. Bioaccumulation and risks of 24 personal care products in plasma of wild fish from the Yangtze River, China. Science of the Total Environment, 2019, 665: 810-819.
[29] Yang YY, Zhao JL, Liu YS, Liu WR, Zhang QQ, Yao L, Hu LX, Zhang JN, Jiang YX, Ying GG. Pharmaceuticals and personal care products (PPCPs) and artificial sweeteners (ASs) in surface and ground waters and their application as indication of wastewater contamination. Science of the Total Environment, 2018, 616-617: 816-823.
[30] Shi WJ, Jiang YX, Huang GY, Zhao JL, Zhang JN, Liu YS, Xie LT, Ying GG. Dydrogesterone Causes Male Bias and Accelerates Sperm Maturation in Zebrafish (Danio rerio). Environmental Science & Technology, 2018, 52(15): 8903-8911.
[31] Yao L, Lv YZ, Zhang LJ, Liu WR, Zhao JL*, Liu YS, Zhang QQ, Ying GG. Determination of 24 personal care products in fish bile using hybrid solvent precipitation and dispersive solid phase extraction cleanup with ultrahigh performance liquid chromatography-tandem mass spectrometry and gas chromatography-mass spectrometry. Journal of Chromatography A, 2018, 1551: 29–40.
[32] Yao L, Zhao JL*, Liu YS, Zhang QQ, Jiang YX, Liu S, Liu WR, Yang YY, Ying GG. Personal care products in wild fish in two main Chinese rivers: Bioaccumulation potential and human health risks. Science of the Total Environment, 2018, 621: 1093–1102.
[33] Zhao JL, Furlong ET, Schoenfuss HL, Kolpin DW, Bird KL, Feifarek DJ, Schwab EA, Ying GG. Uptake and Disposition of Select Pharmaceuticals by Bluegill Exposed at Constant Concentrations in a Flow-Through Aquatic Exposure System. Environmental Science & Technology, 2017, 51(8): 4434-4444.
[34] Yao L, Zhao JL*, Liu YS, Yang YY, Liu WR, Ying GG. Simultaneous determination of 24 personal care products in fish muscle and liver tissues using QuEChERS extraction coupled with ultra pressure liquid chromatography-tandem mass spectrometry and gas chromatography-mass spectrometer analyses. Analytical and Bioanalytical Chemistry, 2016, 408(28): 8177-8193.
[35] Chen X-W, Zhao JL*, Liu YS, Hu LX, Liu S-S, Ying GG#. Evaluation of estrogenic activity in the Pearl River by using effect-directed analysis. Environmental Science and Pollution Research, 2016, 23(21): 21692-21702.
[36] Zhao JL, Liu YS, Liu WR, Jiang YX, Su HC, Zhang QQ, Chen XW, Yang YY, Chen J, Liu SS, Pan CG, Huang GY, Ying GG. 2015. Tissue-specific bioaccumulation of human and veterinary antibiotics in bile, plasma, liver and muscle tissues of wild fish from a highly urbanized region. Environmental Pollution, 198: 15-24.
[37] Zhao JL, Chen XW, Yan B, Wei C, Jiang YX, Ying GG. 2015. Estrogenic activity and identification of potential xenoestrogens in a coking wastewater treatment plant. Ecotoxicology and Environmental Safety, 112: 238-246.
[38] Liu WR, Zhao JL, Liu YS, Chen ZF, Yang YY, Zhang QQ, Ying GG. 2015. Biocides in the Yangtze River of China: Spatiotemporal distribution, mass load and risk assessment. Environmental Pollution, 200: 53-63.
[39] Liu S, Chen H, Xu XR, Liu SS, Sun KF, Zhao JL, Ying GG. 2015. Steroids in marine aquaculture farms surrounding Hailing Island, South China: Occurrence, bioconcentration, and human dietary exposure. Science of the Total Environment, 502: 400-407.
[40] Zhang QQ, Ying GG, Pan CG, Liu YS, Zhao JL. 2015. Comprehensive Evaluation of Antibiotics Emission and Fate in the River Basins of China: Source Analysis, Multimedia Modeling, and Linkage to Bacterial Resistance. Environmental Science & Technology, 49(11): 6772-6782.
[41] Pan CG, Ying GG, Zhao JL, Liu YS, Liu SS, Du J, Kookana R. 2015. Spatial Distribution of Perfluoroalkyl Substances in Surface Sediments of Five Major Rivers in China. Archives of Environmental Contamination and Toxicology, 1-11.
[42] Zhao JL, Jiang YX, Yan B, Wei C, Zhang LJ, Ying GG. 2014. Multispecies acute toxicity evaluation of wastewaters from different treatment stages in a coking wastewater-treatment plant. Environmental Toxicology and Chemistry, 33(9): 1967–1975.
[43] Zhang QQ, Zhao JL, Ying GG, Liu YS, Pan CG. 2014. Emission estimation and multimedia fate modeling of seven steroids at the river basin scale in china. Environmental Science & Technology, 48(14): 7982-7992.
[44] Pan CG, Zhao JL, Liu YS, Zhang QQ, Chen ZF, Lai HJ, Peng FJ, Liu SS, Ying GG. 2014. Bioaccumulation and risk assessment of per- and polyfluoroalkyl substances in wild freshwater fish from rivers in the Pearl River Delta region, South China. Ecotoxicology and Environmental Safety, 7: 192-199.
[45] He LY, Liu YS, Su HC, Zhao JL, Liu SS, Chen J, Liu WR, Ying GG. 2014. Dissemination of Antibiotic Resistance Genes in Representative Broiler Feedlots Environments: Identification of Indicator ARGs and Correlations with Environmental Variables. Environmental Science & Technology, 48(22): 13120-13129.
[46] Chen ZF, Ying GG, Liu YS, Zhang QQ, Zhao JL, Liu SS, Chen J, Peng FJ, Lai HJ, Pan CG. 2014. Triclosan as a surrogate for household biocides: an investigation into biocides in aquatic environments of a highly urbanized region. Water Research, 58: 269-279.
[47] Zhao JL, Zhang QQ, Chen F, Wang L, Ying GG, Liu YS, Yang B, Zhou LJ, Liu S, Su HC, Zhang RQ. 2013. Evaluation of triclosan and triclocarban at river basin scale using monitoring and modeling tools: Implications for controlling of urban domestic sewage discharge. Water Research, 47(1): 395-405.
[48] Li X, Ying GG, Zhao JL, Chen ZF, Lai HJ, Su HC. 2013. 4-Nonylphenol, bisphenol-A and triclosan levels in human urine of children and students in China, and the effects of drinking these bottled materials on the levels. Environment International, 52: 81-86.
[49] Zhou LJ, Ying GG, Liu S, Zhao JL, Chen F, Zhang RQ, Peng FQ, Zhang QQ. 2012. Simultaneous determination of human and veterinary antibiotics in various environmental matrices by rapid resolution liquid chromatography-electrospray ionization tandem mass spectrometry. Journal of Chromatography A, 1244: 123-138.
[50] Su HC, Ying GG, Tao R, Zhang RQ, Zhao JL, Liu YS. 2012. Class 1 and 2 integrons, sul resistance genes and antibiotic resistance in Escherichia coli isolated from Dongjiang River, South China. Environmental Pollution, 169(0): 42-49.
[51] Zhao JL, Ying GG, Yang B, Liu S, Zhou LJ, Chen ZF, Lai HJ. 2011. Screening of multiple hormonal activities in surface water and sediment from the Pearl River system, South China, using effect-directed in vitro bioassays. Environmental Toxicology and Chemistry, 30(10): 2208-2215.
[52] Zhao JL, Ying GG, Chen F, Liu YS, Wang L, Yang B, Liu S, Tao R. 2011. Estrogenic activity profiles and risks in surface waters and sediments of the Pearl River system in South China assessed by chemical analysis and in vitro bioassay. Journal of Environmental Monitoring, 13(4): 813-821.
[53] Zhou LJ, Ying GG, Zhao JL, Yang JF, Wang L, Yang B, Liu S. 2011. Trends in the occurrence of human and veterinary antibiotics in the sediments of the Yellow River, Hai River and Liao River in northern China. Environmental Pollution, 159(7): 1877-1885.
[54] Wang L, Ying GG, Zhao JL, Liu S, Yang B, Zhou LJ, R. T, Su HC. 2011. Assessing estrogenic activity in surface water and sediment of the Liao River system in northeast China using combined chemical and biological tools. Environmental Pollution, 159(1): 148-156.
[55] Zhao JL, Ying GG, Liu YS, Chen F, Yang JF, Wang L, Yang XB, Stauber JL, Warne MS. 2010. Occurrence and a screening-level risk assessment of human pharmaceuticals in the Pearl River system, South China. Environmental Toxicology and Chemistry, 29(6): 1377-1384.
[56] Zhao JL, Ying GG, Liu YS, Chen F, Yang JF, Wang L. 2010. Occurrence and risks of triclosan and triclocarban in the Pearl River system, South China: From source to the receiving environment. Journal of Hazardous Materials, 179(1-3): 215-222.
[57] Zhao JL, Ying GG, Wang L, Yang JF, Yang XB, Yang LH, Li X. 2009. Determination of phenolic endocrine disrupting chemicals and acidic pharmaceuticals in surface water of the Pearl Rivers in South China by gas chromatography-negative chemical ionization-mass spectrometry. Science of the Total Environment, 407(2): 962-974.
[58] Yang JF, Ying GG, Zhou LJ, Liu S, Zhao JL. 2009. Dissipation of oxytetracycline in soils under different redox conditions. Environmental Pollution, 157(10): 2704-2709.
[59] Liu F, Ying GG, Tao R, Zhao JL, Yang JF, Zhao LF. 2009. Effects of six selected antibiotics on plant growth and soil microbial and enzymatic activities. Environmental Pollution, 157(5): 1636-1642.
[60] Zhao JL, Zhang GY, Qin Y, Zhao YM. 2006. Aerobic biodegradation of alkylphenol ethoxylates. Bioresource Technology, 97(18): 2478-2480.
[61] 赵建亮,黄争,刘悦弘,贾雨薇. 2020. 河流湖泊水环境中的微塑料污染. In: 曾永平 (Ed.), 环境微塑料概论科学出版社,
[62] 吕银知, 赵建亮*, 姚理, 何良英, 陈军, 史文俊, 应光国. 酚类内分泌干扰物在长江鱼体血浆中的生物富集. 环境化学, 2019, 38(3): 443-453.
[63] 应光国, 彭平安, 赵建亮, 任明忠, 陈慧明, 魏东斌, 李本纲, 宋建中. 2012. 流域化学品生态风险评价——以东江流域为例. 北京: 科学出版社.
[64] 赵建亮, 应光国, 魏东斌, 任明忠. 2011. 水体和沉积物中毒害污染物的生态风险评价方法体系. 生态毒理学报, 6(6): 577-588.
[65] 赵建亮, 方怡向, 应光国. 2011. 工业废水毒性鉴定评价方法体系的建议及其应用示例. 生态环境学报, 20(3): 549-559.
[66] 赵建亮, 李旭, 应光国. 2009. 中澳市售家用洗涤剂中LAS和APE的分布特征. 环境化学, 28(4): 600-601.
[67] 匡科, 赵建亮, 应光国, 杨小兵, 刘峰. 2008. 液相色谱法同时测定水体中不同聚合度的壬基酚聚氧乙烯醚. 环境化学, 27(3): 403-404.
[68] 赵建亮, 张高勇, 秦勇, 赵郁梅. 2006. 壬基酚聚氧乙烯醚好氧生物降解性的研究. 精细化工, 23(4): 350-354,381.
[69] 赵建亮, 张高勇, 秦勇, 赵郁梅. 2006. 聚氧乙烯醚类非离子表面活性剂生物降解度测定方法的改进. 日用化学工业, 25(1): 50-52.