赵时真 (Shizhen Zhao)

赵时真:博士,助理研究员。浙江温州人。本科毕业于暨南大学,环境工程专业。2011年获国家留学基金委资助,赴英国兰卡斯特大学(Lancaster University)攻读博士学位,师从Kevin Jones教授和Andy Sweetman博士。2016年3月,通过博士论文答辩,博士论文题目为《Modelling the Fate and Bioaccumulation Potential of Organic Chemicals in China》。博士后期间的研究方向为持久性有机污染物的归趋和人群暴露,合作导师为张干研究员。先后获得广东省“珠江人才计划“海外青年人才引进计划(博士后资助项目)、博士后科学金基金面上资助和特别资助等多项资助。2020年8月获广州地化所“涂光炽”奖(B),留所工作。

近期致力于通过数值模拟结合野外观测的手段,解析有机污染物的不同来源,并评估其环境与健康风险,主要成果包括:(1)阐明了中西方人群不同的POPs膳食暴露特征;(2)拓展了传统食物链累积暴露模型的适用范围;(3)重建了我国多氯联苯(PCBs)的排放和暴露历史;(4)证实了我国大气中的PCBs主要由非经意产生的排放来源主导。

邮箱:zhaoshizhen@gig.ac.cn

主持或参与的科研项目

  1. 城市大气中有机磷酸酯阻燃剂的来源途径和气-粒分配研究,国家自然科学基金青年项目,42107120,2022-2024,24万元,主持
  2. 中科院广州地化所““涂光炽优秀青年学者”计划B类,50万元,2020-2023,主持
  3. 城郊含塑生活垃圾露天焚烧的卤代有机化合物排放特征与分子标志物示踪,广东省自然科学基金面上项目,2021A1515012177,2021-2023,10万元,主持
  4. 土地利用回归(LUR)模型预测广州城区多环芳烃(PAHs)及其衍生物的空气暴露风险,广东省自然科学基金面上项目,2019A1515011254,2019-2022,10万元,主持
  5. 土地利用回归模型预测广州大气多环芳烃的环境暴露风险,中国博士后科学基金特别资助,2018T110898,2018-2020,15万元,主持
  6. 中国非工业生产的多氯联苯的环境归趋及其源解析,中国博士后科学基金面上二等资助,2017M622814,2018-2019,5万元,主持
  7. 首批“珠江人才-海外青年人才引进计划”博士后资助项目,2017-2019,100万元,主持
  8. 有毒有害大气污染物环境风险管理技术体系研究,国家科技部重点研发计划项目,2017YFC0212000,2017-2021,1403万元,参与,项目办公室主任
  9. 基于土地利用回归模型的城区空气污染暴露预测智慧平台与应用,广东省科技厅国际科技合作领域项目,2018A050501009,2018-2020,100万元,参与
  10. 南方污染观测与研究计划,中国科学院一带一路专项,132744KYSB20170002,2017-2019,390万元,参与

已发表文章:

  1. Tian, L., Li, J., Zhao, S*, Tang, J., Li, J., Guo, H., Liu, X., Zhong, G., Xu, Y., Lin, T., Lyv, X., Chen, D., Li, K., Shen, J. and Zhang, G*. (2021) DDT, Chlordane, and Hexachlorobenzene in the Air of the Pearl River Delta Revisited: A Tale of Source, History, and Monsoon. Environmental Science & Technology 55(14), 9740-9749.
  2. Zhao, S., Tian, L., Zou, Z., Liu, X., Zhong, G., Mo, Y., Wang, Y., Tian, Y., Li, J., Guo, H. and Zhang, G*. (2021) Probing Legacy and Alternative Flame Retardants in the Air of Chinese Cities. Environmental Science & Technology 55(14), 9450-9459.
  3. Zhao, S., Jones, K.C., Li, J., Sweetman, A.J., Liu, X., Xu, Y., Wang, Y., Lin, T., Mao, S., Li, K., Tang, J. and Zhang, G*. (2020) Evidence for Major Contributions of Unintentionally Produced PCBs in the Air of China: Implications for the National Source Inventory. Environmental Science & Technology 54(4), 2163-2171.
  4. Zhao, S., Breivik, K., Jones, K.C. and Sweetman, A.J*. (2018) Modeling the Time-Variant Dietary Exposure of PCBs in China over the Period 1930 to 2100. Environmental Science & Technology 52(13), 7371-7379.
  5. Zhao, S., Jones, K.C. and Sweetman, A.J*. (2018) Can poly-parameter linear-free energy relationships (pp-LFERs) improve modelling bioaccumulation in fish? Chemosphere 191, 235-244.
  6. Zhao, S., Breivik, K., Liu, G., Zheng, M., Jones, K.C. and Sweetman, A.J*. (2017) Long-Term Temporal Trends of Polychlorinated Biphenyls and Their Controlling Sources in China. Environmental Science & Technology 51(5), 2838-2845.
  7. Zhao, S., Price, O., Liu, Z., Jones, K.C. and Sweetman, A.J*. (2015) Applicability of western chemical dietary exposure models to the Chinese population. Environmental Research 140, 165-176.
  8. Lyu, X., Guo, H*., Wang, Y., Zhang, F., Nie, K., Dang, J., Liang, Z., Dong, S., Zeren, Y., Zhou, B., Gao, W., Zhao, S. and Zhang, G*. (2020) Hazardous volatile organic compounds in ambient air of China. Chemosphere 246, 125731.
  9. Mao, S., Zhang, G*., Li, J., Geng, X., Wang, J., Zhao, S., Cheng, Z., Xu, Y., Li, Q. and Wang, Y. (2020) Occurrence and sources of PCBs, PCNs, and HCB in the atmosphere at a regional background site in east China: Implications for combustion sources. Environmental Pollution 262, 114267.
  10. Mao, S., Zhang, G*., Zhao, S., Li, J., Liu, X., Cheng, Z., Zhong, G., Malik, R.N. and Liu, X. (2019) High Ab8undance of Unintentionally Produced Tetrachlorobiphenyls (PCB47/48/75, 51, and 68) in the Atmosphere at a Regional Background Site in East China. Environmental Science & Technology 53(7), 3464-3470.
  11. Jiang, H., Zhong, G., Wang, J., Jiang, H., Tian, C., Li, J., Zhao, S., Yu, Z., Morawska, L. and Zhang, G*. (2018) Using Polyurethane Foam-Based Passive Air Sampling Technique to Monitor Monosaccharides at a Regional Scale. Environmental Science & Technology 52(21), 12546-12555.
  12. Williams, P.N*., Zhang, H., Davison, W., Zhao, S., Lu, Y., Dong, F., Zhang, L. and Pan, Q. (2012) Evaluation of in Situ DGT Measurements for Predicting the Concentration of Cd in Chinese Field-Cultivated Rice: Impact of Soil Cd: Zn Ratios. Environmental Science & Technology 46(15), 8009-8016.