张元勋 教授

 个人简介

张元勋，男，教授，中国科学院“百人计划”入选者。2006年获北京大学环境科学博士学位。曾任美国Clarkson大学大气资源工程与科学中心实验室主任、中国科学院大学教务部部长、中国科学院大学资源与环境学院副院长。从事大气环境化学、环境污染溯源、环境健康、环境损害鉴定评估等相关研究工作，先后主持或参与国家自然科学基金、国家重点研发计划、中科院战略先导专项、环保部公益性项目等多个项目和课题，多项研究成果发表在Environ Sci & Tech、PNAS、Atmos Environ等国际著名期刊上。兼任中国环境科学学会环境损害鉴定评估专业委员会副主任委员兼秘书长、国科大环保技术联盟秘书长、全国环境科学与工程首席科学传播专家、北京市生态学会常务副理事长、副秘书长、国家湿地研究中心理事等。

 

研究方向

大气化学、环境监测仪器与分析方法开发、环境健康研究和生态环境损害鉴定评估技术。

 

主持或参与的科研项目

1、大气重污染成因与治理攻关项目（基于环境监测和比较风险评估的环境管理支撑技术研究Y81Z0131A9等5个子课题负责人，2017-2019）

2、生态环境损害鉴定评估平台构建及应用示范（国家重点研发计划Y7190151A9，参与，2016-2020）

3、基于行为轨迹驱动的颗粒物精细化暴露研究（国家自然科学基金重大研究计划培育项目Y61102V1A1，主持，2016-2018）

4、大气细颗粒物和臭氧污染健康危害归因危险度评价及案例研究（环保部公益项目Y51Z01N1A9，参与，2015-2018）

5、重点区域大气灰霾综合观测研究（中科院战略性先导科技专项Y42901TED2，主持，2014-2015）

6、大气颗粒物中活性氧物质的污染水平及来源解析（自然科学基金面上项目Y41101S1A1，主持，2014-2017）

7、大气致霾粒子理化特性及源解析（中科院战略性先导科技专项，Y3290131A9，主持，2012-2017）

8、氧活性物质的大气行为及健康影响（中科院“百人计划”项目，Y12901FEA2，主持，2010-2015）

 

近年代表性论文

1、Shang J, Zhang YX, Schauer JJ, Chen SM, Yang SJ, Han TT, Zhang D, Zhang JJ, An JX, 2022, Prediction of the oxidation potential of PM2.5 exposures from pollutant composition and sources, Environmental Pollution, 293, 118492

2、Sulaymon ID, Zhang YX, Hopke PK, Hu JL, Rupakheti D, Xie XD, Zhang Y, Ajibade FO, Hua JX, She YL, 2021, Influence of transboundary air pollution and meteorology on air quality in three major cities of Anhui Province, China, Journal of Cleaner Production, 329, 129641

3、Lin PC, Gao J, He WQ, Nie L, Schauer JJ, Yang SJ, Xu YS, Zhang YX, 2021, Estimation of commercial cooking emissions in real-world operation: Particulate and gaseous emission factors, activity, influencing and modelling, Environmental Pollution, 289, 117847

4、Hua JX, Zhang YX, de Foy B, Shang J, Schauer JJ, Mei XD, Sulaymon ID, Han TT, 2021, Quantitative estimation of meteorological impacts and the COVID-19 lockdown reductions on NO2 and PM2.5 over the Beijing area using Generalized Additive Models (GAM), Journal of Environmental Management, 291, 112676

5、Sulaymon ID, ZhangYX, Hu JL, Hopke PK, Zhang Y, Zhao B, Xing J, Li L, Mei XD, 2021, Evaluation of regional transport of PM2.5 during severe atmospheric pollution episodes in the western Yangtze River Delta, China, Journal of Environmental Management, 293, 112827

6、Sulaymon ID, ZhangYX, Hopke PK, Hu JL, Zhang Y, Li L, Mei XD, Gong KJ, Shi ZH, Zhao B, Zhao FX, 2021, Persistent high PM2.5 pollution driven by unfavorable meteorological conditions during the COVID-19 lockdown period in the BTH region, China, Environmental Research, 198, 111186

7、Hua JX, Zhang YX, de Foy B, Mei XD, Shang J, Zhang Y, Sulaymon ID, Zhou DD, 2021, Improved PM2.5 concentration estimates from low-cast sensors using calibration models categorized by relative humidity, Aerosol Science and Technology, DOI: 10.1080/02786826.2021.1873911

8、Hua JX, Zhang YX, de Foy B, Mei XD, Shang J, Feng C, 2021, Competing PM2.5 and NO2 holiday effects in the Beijing area vary locally due to differences in residential coal burning and traffic patterns, Science of The Total Environment, 750, 141575

9、Sulaymon, ID; Zhang, YX; Hopke, PK; Zhang, Y; Hua, JX; Mei, XD, 2021, COVID-19 pandemic in Wuhan: Ambient air quality and the relationships between criteria air pollutants and meteorological variables before, during, and after lockdown, Atmospheric Research, 250, 105362

10、Zhang Y, Li ZQ, Chang WY, Zhang YX, de Leeuw G, Schauer JJ, 2020, Satellite Observations of PM2.5 Changes and Driving Factors Based Forecasting Over China 2000-2025, Remote Sensing, 12(16), 2518

11、Bilsback KR, Baumgartner J, Cheeseman M, Ford B, Kodros JK, Li, XY, Ramnarine E, Tao S, Zhang, YX, Carter E, Pierce JR, 2020, Estimated Aerosol Health and Radiative Effects of the Residential Coal Ban in the Beijing-Tianjin-Hebei Region of China, Aerosol and Air Quality Research, 20(11), 2332-2346

12、陈速敏，张元勋，尚晶，徐国杰，2020，基于青海弧菌Q67 的镀锌废水土壤污染的生物毒性效应，法医学杂志，36（4），445-452

13、Shang J, Zhang YX, Schauer JJ, Tian JY, Hua JX, Han TT, Fang DQ, An JX, 2020, Associations between source-resolved PM2.5 and airway inflammation at urban and rural locations in Beijing. Environment International. 139， 105635.

14、Wang YQ, Zhang YX,  Schauer JJ, de Foy B; Cai TQ, Zhang Y, 2020, Impacts of Sources on PM2.5 Oxidation Potential during and after the Asia-Pacific Economic Cooperation Conference in Huairou, Beijing. Environmental Science & Technology, 54, 5, 2585-2594

15、Sulaymon ID, Mei XD, Yang SJ, Chen SM, Zhang Y, Hopke PK, Schauer JJ, Zhang YX, 2020, PM2.5 in Abuja, Nigeria: Chemical characterization, source apportionment, temporal variations, transport pathways and the health risks assessment, Atmospheric Research, 237, 104833

16、Fang DQ, Huang W, Antkiewicz DS, Wang YQ, Khuzestani RB, Zhang Y, Shang J, Shafer MM, He LY, Schauer JJ, Zhang YX, Zhao S, 2019, Chemical composition and health risk indices associated with size-resolved particulate matter in Pearl River Delta (PRD) region, China, Environmental Science and Pollution Research, 26:12435-12465

17、Baumgartner J, Clark S, Carter E, Lai A, Zhang YX, Shan M, Schauer JJ, Yang XD, 2019, Effectiveness of a Household Energy Package in Improving Indoor Air Quality and Reducing Personal Exposures in Rural China, Environmental Science and Technology, 53(15), 9306-931

18、Barrington-Leig C, Baumgartner J, Carter E, Robinson BE, Tao S, Zhang YX, 2019, An evaluation of air quality, home heating and well-being under Beijing's programme to eliminate household coal use, Nature Energy, 4(5),416-42

19、Lin, PC, He, WQ, Nie, L, Schauer, JJ, Wang, YQ, Yang, SJ, Zhang, YX, 2019, Comparison of PM2.5 emission rates and source profiles for traditional Chinese cooking styles, Environmental Science and Pollution Research, 26(21), 21239-21252

20、Shang J, Khuzestani RB, Huang W, An JX, Schauer JJ, Fang DQ, Cai TQ, Tian JY, Yang SJ, Guo B,  Zhang YX, 2018, Acute changes in a respiratory inflammation marker in guards following Beijing air pollution controls, Science of the Total Environment, 624,1539–1549

21、Huang W, Fang DQ, Shang J, Li ZQ, Zhang Y, Huo P, Liu ZY, Schauer JJ, Zhang YX, 2018, Relative impact of short-term emissions controls on gas and particle-phaseoxidative potential during the 2015 China Victory Day Parade in Beijing, China, Atmospheric Environment 183, 49–56

22、Khuzestani RB, Schauer JJ, Shang J, Cai TQ, Fang DQ, Wei YJ, Zhang LL, Zhang YX, 2018, Source apportionments of PM2.5 organic carbon during the elevated pollution episodes in the Ordos region, Inner Mongolia, China, Environmental Science and Pollution Research, 25:13159–13172

23、Tian JY, Cai TQ, Shang J, Schauer JJ, Yang SJ, Zhang LJ, Zhang YX, 2018, Effects of the emergency control measures in Beijing on air quality improvement, Atmospheric Pollution Research, 10(2), 580-586

24、Dou TF, Xiao CD, Du ZH, Schauer JJ, Ren H, Ge BZ, Xie AH, Tan JH, Fu PQ, Zhang YX, 2017, Sources, evolution and impacts of EC and OC in snow on sea ice: a measurement study in Barrow, Alaska, Science Bulletin 62, 1547–1554

25、Xiang P, Zhou XM, Duan JC, Tan JH, He KB, Yuan C, Ma YL, Zhang YX, 2017, Chemical characteristics ofwater-soluble organic compounds (WSOC) in PM2.5 in Beijing, China: 2011–2012, Atmospheric Research 183, 104–112

26、Khuzestani RB, Schauer JJ, Wei YJ, Zhang LL, Cai TQ, Zhang Y, Zhang YX, 2017, Quantification of the sources of long-range transport of PM2.5 pollution in the Ordos region, Inner Mongolia, China, Environmental Pollution 229, 1019-1031

27、Wang YQ, de Foy B, Schauer JJ, Olson MR, Zhang Y, Li ZQ, Zhang YX, 2017, Impacts of regional transport on black carbon in Huairou, Beijing, China, Environmental Pollution, 221, 75-84

28、Khuzestani RB, Schauer JJ, Wei YJ, Zhang Y, Zhang YX, 2017, A non-destructive optical color space sensing system to quantify elemental and organic carbon in atmospheric particulate matter on Teflon and quartz filters, Atmospheric Environment, 149, 84-94

29、Cai TQ, Zhang Y, Fang DQ, Shang J, Zhang YX, Zhang YH, 2017, Chinese vehicle emissions characteristic testing with small sample size: Results and comparison, Atmospheric Pollution Research, 8, 154-163

30、Zhang HF, Hu J, Qi YX, Li CL, Chen JM, Wang XM, He JW, Wang SX, Hao JM, Zhang LL, Zhang LJ, Zhang YX, Li RK, Wang SL, Chai FH, 2017, Emission characterization, environmental impact, and control measure of PM2.5 emitted from agricultural crop residue burning in China, Journal of Cleaner Production, 149, 629-635

31、Huang W, Zhang YX, Zhang Y, Zeng LM, Dong HB, Huo P, Fang DQ, Schauer JJ, 2016, Development of an automated sampling-analysis system for simultaneous measurement of reactive oxygen species (ROS) in gas and particle phases: GAC-ROS, Atmospheric Environment, 134, 18-26

32、Liu QY, Baumgartner J, Zhang YX, Schauer JJ, 2016, Source apportionment of Beijing air pollution during a severe winter haze event and associated pro-inflammatory responses in lung epithelial cells, Atmospheric Environment 126, 28-35

33、Ni K, Carter EM, Schauer JJ, Ezzati M, Zhang YX, Niu HJ, Lai AM, Shan M, Wang YQ, Yang XD, Baumgartner J, 2016, Seasonal variation in outdoor, indoor, and personal air pollution exposures of women using wood stoves in the Tibetan Plateau: Baseline assessment for an energy intervention study, Environment International, 94, 449–457

34、Secrest MH, Schauer JJ, Carter EM, Lai AM, Wang YQ, Shan M, Yang XD, Zhang YX, Baumgartner J, 2016, The oxidative potential of PM2.5 exposures from indoor and outdoor sources in rural China, Science of the Total Environment, 571, 1477–1489

35、Wang YQ, Zhang Y, Schauer JJ, de Foy B, Guo B, Zhang YX, 2016, Relative impact of emissions controls and meteorology on air pollution mitigation associated with the Asia-Pacific Economic Cooperation (APEC) conference in Beijing, China, Science of the Total Environment, 571, 1467–1476

36、Cai TQ, Schauer JJ, Huang W, Fang DQ, Shang J, Wang YQ, Zhang YX, 2016, Sensitivity of source apportionment results to mobile source profiles, Environmental Pollution, 219, 821-828

37、方冬青，魏永杰，黄伟，蔡天骐，张阳，刘庆阳，张元勋，2016，北京市2014年10月重霾污染特征及有机碳来源解析，环境科学研究，29（1），12-19

38、Haung, W., Zhang, Y.X., Zhang, Y., Fang, D.Q., Schauer, J.J., 2016, Optimization of the Measurement of Particle-Bound Reactive Oxygen Species with 2',7'-Dichlorofluorescin(DCFH), Water Air Soil Pollut, 227:164, DOI 10.1007/s11270-016-2860

39、Dewan, N., Wang, Y.Q., Zhang, Y.X., He, L.Y., Huang, X.F., Majestic, B.J., 2016, Effect of Pollution Controls on Atmospheric PM2.5 Composition during Universiade in Shenzhen, China, Atmosphere, 7, 57; doi:10.3390/atmos7040057

40、Zhang, Y., Huang, W., Cai, T.Q., Fang, D.Q., Wang, Y.Q., Song, J., Hu, M., Zhang, Y.X., 2016, Concentrations and chemical compositions of fine particles PM2.5 during haze and non-haze days in Beijing, Atmospheric Research, 174-175, 62-69

 

 （作者、编辑：高蒙；审核、责任编辑：耿超）