汪玉

发布者:envadmin发布时间:2019-08-29浏览次数:11442

姓名:汪玉

职称:副教授,硕导,博导

研究领域与方向:新污染物土壤-植物-大气体系多介质行为与风险;新污染物土壤微生物效应与机制

邮箱:yu.wang@nankai.edu.cn





工作经历

2023.01至今,南开大学,环境科学与工程学院,副教授

2019.072022.12,南开大学,环境科学与工程学院,讲师

社会兼职

Toxics期刊新污染物分区编委;《农业环境科学学报》青年编委

教育背景

2016.09—2019.06:南开大学,环境科学专业,获理学博士学位

2017.09—2018.11:美国纽约州卫生署Wadsworth研究中心,博士联合培养

2013.09—2015.06:中国农业大学,环境工程专业,获工学硕士学位

2009.09—2013.06:中国农业大学,环境工程专业,获工学学士学位


科研项目

·           国家自然科学基金委面上项目“农用地膜抗氧化剂的土壤污染特征及其微生物效应与机制研究”(42377223),2024/01-2027/1249万元,主持

·           国家自然科学基金委青年科学基金项目“有机磷酸酯在大气颗粒物与植物叶面间的异相光反应与富集代谢行为研究”(42007328),2021/01-2023/1224万元,主持

·           天津市自然科学基金一般项目“土壤中酚类抗氧化剂的污染特征及微生物效应研究”23JCQNJC01510),2023/10-2025/106万元,主持。

·           天津市自然科学基金青年项目“有机亚磷酸酯抗氧化剂在大气降尘及土壤中的分布特征及转化行为研究”(21JCQNJC00220),2021/10-2023/106万元,主持

·           国家重点研发计划项目,课题“场地土壤-水污染多介质多过程耦合机制与时空演化模型”(2020YFC1807002),2020/12-2024/1165万元,子课题负责人

·           国家自然科学基金委员会联合基金项目,湖南产粮区典型污染物与废弃物多介质环境行为及污染阻控与修复机制(U21A20291),2022/01-2025/12260万元,参与

·           山东省科技厅重大科技创新工程项目,典型重点行业土壤污染监测、预警和修复技术集成及装备研发(2021CXGC011206),2022/01-2024/1260万元,参与

·           国家重点研发计划项目,课题“场地土壤-水污染物多介质迁移分配规律与时空分布特征”(2020YFC1807001),2020/12-2024/11349万元,参与

·           国家重点研发计划项目,课题“典型油田开采区土壤污染控制与修复技术集成示范工程”(2019YFC1804105),2019/12-2023/1160万元,参与


学术论著

·           Zhang, Q.; Liu, Y.; Li, S.; Li, H.; Gao, M.; Yao, Y.; Wang, L.; Wang, Y.*, Traditional and novel organophosphate esters in plastic greenhouse: Occurrence, multimedia migration, and exposure risk via vegetable consumption. Environmental Science & Technology2024,58, 13929–13939ES&T副封面论文

·           Gao, M.; Zhang, Q.; Wu, S.; Wu, L.; Cao, P.; Zhang, Y.; Rong, L.; Fang, B.; Yuan, C.; Yao, Y.; Wang, Y.*; Sun, H.*, Contamination status of novel organophosphate esters derived from organophosphite antioxidants in soil and the effects on soil bacterial communities. Environmental Science & Technology, 2024. 58, 10740–10751ES&T副封面论文

·           Zhang, R.; Zhang, X.; Zhang, Q.; Li, Y.; Wang, Y.*; Xu, J.; Cheng, Z.; Chen, H.; Yao, Y.; Sun, H., Heterogeneous photodegradation behavior of liquid crystal monomers in dust: Quantitative structure-activity relationship and product identification. Environmental Science & Technology, 2024, 58, 3908-3918.

·           Gao, M.; Li, X.; Zhang, Q.; Li, S.; Wu, S.; Wang, Y.*; Sun, H., Spatial distribution of volatile organic compounds in contaminated soil and distinct microbial effect driven by aerobic and anaerobic conditions. Science of the Total Environment 2024, 927, 172256.

·           Li, S.; Zhang, Q.; Gao, M.; Li, H.; Yang, Z.; Wang, Y.*; Sun, H., Polycyclic aromatic hydrocarbons and their halogenated derivatives in soil from Yellow River Delta: Distribution, source apportionment, and risk assessment. Marine Pollution Bulletin 2024, 202, 116308.

·           Li, S.; Shen, Y.; Gao, M.; Song, H.; Ge, Z.; Zhang, Q.; Xu, J.; Wang, Y.*; Sun, H.*, Machine learning models for predicting bioavailability of traditional and emerging aromatic contaminants in plant roots. Toxics 2024,12, 737.

·           Yang, J.; Yao, Y.*; Li, X.; He, A.; Chen, S.; Wang, Y.*; Dong, X.; Chen, H.; Wang, Y.; Wang, L.; Sun, H., Nontarget identification of novel organophosphorus flame retardants and plasticizers in indoor air and dust from multiple microenvironments in China. Environmental Science & Technology. 2024,58, 7986–7997.

·           Zhang, Q.; Wang, Y.*; Gao, M.; Li, Y.; Zhao, L.; Yao, Y.; Chen, H.; Wang, L.; Sun, H.*, Organophosphite antioxidants and novel organophosphate esters in dust from China: Large-scale distribution and heterogeneous phototransformation. Environmental Science & Technology, 2023, 57, 4187-4198.

·           Xu, J.; Wang, Y.*; Zhang, Q.; Sun, H.; Zhang, W., Uptake and enantiomeric selectivity of beta-blockers in lettuce (Lactuca sativa L.) and tomato (Lycopersicon esculentum M.) in soil-pot culture. Journal of Agricultural and Food Chemistry 2023, 71, 8816-8824.

·           Tian, Y. X.#; Wang, Y.#; Chen, H. Y.*; Ma, J.*; Liu, Q. Y.; Qu, Y. J.; Sun, H. W.; Wu, L. N.; Li, X. L., Organophosphate esters in soils of Beijing urban parks: Occurrence, potential sources, and probabilistic health risks. Science of the Total Environment 2023, 162855.

·           Sun, X.; Zhao, Q.; Li, X.; Zhang, Q.; Gao, M.; Ge, Z.; Wang, Y.*; Sun, H., Spatial distribution and risk assessment of polycyclic aromatic hydrocarbons in soils from contaminated sites in eastern China. Environmental Geochemistry and Health 2023,45, 9745–9756.

·           Zhang, Q.; Gao, M.; Sun, X.; Wang, Y.*; Yuan, C.*; Sun, H., Nationwide distribution of polycyclic aromatic hydrocarbons in soil of China and the association with bacterial community. Journal of Environmental Sciences 2023, 128, 1-11.

·           Rong, L.; Wang, Y.*; Meidl, P.; Wang, L.; Sun, H.*, Microplastics affect soybean rhizosphere microbial composition and function during vegetative and reproductive stages. Ecotoxicology and Environmental Safety 2023, 252, 114577.

·           Li, X.; Wang, Y.*.; Bai, W.; Zhang, Q.; Zhao, L.; Cheng, Z.; Zhu, H.; Sun, H., Novel brominated flame retardants in dust from E-waste-dismantling workplace in Central China: Contamination status and human exposure assessment. Toxics 2023, 11, 58.

·           Xu, J.; Wang, Y.*; Sun, H.; Zhang, W., Adsorption and leaching of beta-blockers in fluvo-aquic and black soil: Behavior characteristic and enantiomer selectivity. Environmental Research 2022, 214, 114062.

·           Zhang, Q.; Li, X.; Wang, Y.*; Zhang, C.; Cheng, Z.; Zhao, L.; Li, X.; Sun, Z.; Zhang, J.; Yao, Y.; Wang, L.; Li, W.; Sun, H., Occurrence of novel organophosphate esters derived from organophosphite antioxidants in an e-waste dismantling area: Associations between hand wipes and dust. Environment International2021, 157, 106860.

·           Zhang, Q.; Wang, Y.*; Zhang, C.; Yao, Y.; Wang, L.; Sun, H., A review of organophosphate esters in soil: Implications for the potential source, transfer, and transformation mechanism. Environmental Research2021, 112122.

·           Liu, Y.; Hu, H.; Wang, Y.*; Wang, L.; Feng, Y.*, Effects of heavy metals released from sediment accelerated by artificial sweeteners and humic acid on a green algae Scenedesmus obliquus. Science of the Total Environment 2020,729, 138960.

·           Wang, Y.; Yao, Y.; Han, X.; Li, W.; Zhu, H.; Wang, L.; Sun, H.*; Kannan, K.*, Organophosphate di- and tri-esters in indoor and outdoor dust from China and its implications for human exposure. Science of the Total Environment 2020,700, 134502.

·           Wang, Y..; Li, W.; Martinez-Moral, M. P.; Sun, H.; Kannan, K.*, Metabolites of organophosphate esters in urine from the United States: Concentrations, temporal variability, and exposure assessment. Environment International 2019,122, 213-221. (ESI高被引论文)

·           Wang, Y.; Yao, Y.; Li, W.; Zhu, H.; Wang, L.; Sun, H.*; Kannan, K.*, A nationwide survey of 19 organophosphate esters in soils from China: Spatial distribution and hazard assessment. Science of the Total Environment 2019,671, 528-535.

·           Wang, Y.; Zhu, H.; Kannan, K.*, A review of biomonitoring of phthalate exposures. Toxics 2019,7, 21. (ESI高被引论文)

·           Wang, Y.; Kannan, P.; Halden, R. U.; Kannan, K.*, A nationwide survey of 31 organophosphate esters in sewage sludge from the United States. Science of the Total Environment 2019,655, 446-453.

·           Wang, Y.; Kannan, K.*, Concentrations and dietary exposure to organophosphate esters in foodstuffs from Albany, New York, United States. Journal of Agricultural and Food Chemistry 2018,66, 13525-13532.

·           Wang, Y.; Sun, H.*; Zhu, H.; Yao, Y.; Chen, H.; Ren, C.; Wu, F.; Kannan, K., Occurrence and distribution of organophosphate flame retardants (OPFRs) in soil and outdoor settled dust from a multi-waste recycling area in China. Science of the Total Environment 2018,625, 1056-1064. (ESI高被引论文)

·           Wang, Y.; Gao, Z.; Shen, F.; Li, Y.; Zhang, S.; Ren, X.*; Hu, S.*, Physicochemical characteristics and slow release performances of chlorpyrifos encapsulated by poly(butyl acrylate-co-styrene) with the cross-linker ethylene glycol dimethacrylate. Journal of Agricultural and Food Chemistry 2015,63, 5196-5204.

·           张瑞琦; 张笑; 武栅杏; 张秋月; 汪玉*; 孙红文, 合成酚类抗氧化剂在我国室内灰尘中的污染特征及人体暴露风险评估. 中国环境科学2024, 44, 2320-2326

·           汪玉,高子登,张剑南,吕连启,刘冬梅,胡树文*, 甲草胺在玉米籽粒上的QuEChERS_HPLC残留分析方法探究. 中国农学通报2014, 30, 295-299.



其他成果与奖励

专利申请:

·           胡树文;汪玉;高子登,一种缓/控释微胶囊农药及其制备方法. CN 103340197 A (201310313939.9)2013,已授权

·           汪玉;张秋月;孙红文,环境介质中有机磷酸三酯及其前体物和代谢物的测定方法,申请号202310725958.6

专著编写:

·           许宜平、王子健等著.《有机磷酸酯的暴露、毒性机制及环境风险评估》,2019,科学出版社,北京. 第四章作者

·           胡树文主编. 《缓/控释肥料》,2014,化学工业出版社,北京. 第八章作者

·           汪磊、陈翠红主编. 《环境监测与仪器分析实验》,2022,化学工业出版社,北京. 实验三、四、七、八、十一作者。

科研奖励:

·           汪玉(2/10);高风险人群新污染物暴露识别、暴露过程与健康风险,广东省科技厅,自然科学,省部二等奖,2022(章涛;汪玉;郑晓波;姚义鸣;陆少游;孙红文;罗孝俊;汪磊;李彦希;祝洪凯)

代表性成果介绍

1)新污染物区域污染特征与风险

设施农业环境传统及新型有机磷酸酯多介质迁移与蔬菜摄入途径暴露风险


Traditional and novel organophosphate esters in plastic greenhouse: Occurrence, multimedia migration, and exposure risk via vegetable consumption. Environmental Science & Technology2024,58, 13929-13939

Link: https://doi.org/10.1021/acs.est.4c02705

 

 

电子垃圾拆解区有机亚磷酸酯抗氧化剂污染特征与风险



Occurrence of novel organophosphate esters derived from organophosphite antioxidants in an e-waste dismantling area: Associations between hand wipes and dust. Environment International2021, 157, 106860.

Link: https://doi.org/10.1016/j.envint.2021.106860

 

 

2)新污染物环境转化机制


有机亚磷酸酯抗氧化剂在降尘中的异相光转化特征与机制

 

Organophosphite antioxidants and novel organophosphate esters in dust from China: Large-scale distribution and heterogeneous phototransformation. Environmental Science & Technology, 2023, 57, 4187-4198.

Link: https://doi.org/10.1021/acs.est.2c08239

 

 

液晶单体在降尘中的光转化机制QSAR模型



Heterogeneous photodegradation behavior of liquid crystal monomers in dust: Quantitative structure-activity relationship and product identification. Environmental Science & Technology, 2024, 58, 3908-3918.

Link: https://doi.org/10.1021/acs.est.3c04753

 

 

3)新污染物土壤微生物效应

抗氧化剂源新型有机磷酸酯土壤污染及其对微生物群落结构和功能的影响

 

Contamination status of novel organophosphate esters derived from organophosphite antioxidants in soil and the effects on soil bacterial communities. Environmental Science & Technology, 2024. 58, 10740-10751

Link: https://doi.org/10.1021/acs.est.3c10611