您的位置:首页  师资队伍  教师队伍  教师队伍

陶俊 教授

工作单位:暨南大学环境与气候研究院

电话:

邮箱:taojun@jnu.edu.cn

研究方向:

个人简介




陶俊,博士,研究员,主要从事大气颗粒物理化特性、VOCs来源解析和臭氧污染成因研究,发表SCI论文100余篇,被他引用5900余次(H=40)(https://orcid.org/0000-0002-0936-4869),第一作者SCI高被引论文5篇。




研究方向



1.大气环境PM2.5理化性质研究

2.大气环境VOCs来源解析及其控制对策研究

3.大气环境影响评估和其它地方大气环境咨询服务



荣誉奖励


1.国家环境保护专业技术青年拔尖人才(2016年)

2.中国环境科学学会青年科学家奖(优秀奖)

3.广东省科技进步一等奖(一等奖,排名第四)

4.中国颗粒学会自然科学奖(二等奖,排名第二)

5.国家发明专利5项,实用新型专利1


学术论著


   

1.         Tao, L.(学生), Zhou, Z., Tao, J.*, Zhang, L., Wu, C., Li, J., Yue, D., Wu, Z., Zhang, Z., Yuan, Z., Huang, J., Wang, B., 2023. High contribution of new particle formation to ultrafine particles in four seasons in an urban atmosphere in south China. Science of The Total Environment 889, 164202. https://doi.org/10.1016/j.scitotenv.2023.164202

2.         Huang, J. (学生), Zhang, Z.*, Tao, J.*, Zhang, L., Nie, F., Fei, L., 2022. Source apportionment of carbonaceous aerosols using hourly data and implications for reducing PM2.5 in the Pearl River Delta region of South China. Environmental Research 210, 112960. https://doi.org/10.1016/j.envres.2022.112960

3.         Huang, W. (学生), Zhang, Z.*, Huang, J., Tao, J., Zhou, Z., Yuan, Z., Yang, Y., Wang, B., 2023. High contribution of non-exhaust emission to health risk of PM2.5-bound toxic metals in an urban atmosphere in south China. Atmospheric Environment 306, 119824. https://doi.org/10.1016/j.atmosenv.2023.119824

4.         Li, J. (学生), Zhang, Z., Wu, Y.*, Tao, J., Xia, Y., Wang, C., Zhang, R., 2021. Effects of chemical compositions in fine particles and their identified sources on hygroscopic growth factor during dry season in urban Guangzhou of South China. Science of The Total Environment 801, 149749. https://doi.org/10.1016/j.scitotenv.2021.149749

5.         Pei, C. (学生), Wu, Y.*, Tao, J.*, Zhang, L., Zhang, T., Zhang, R., Li, S., 2023. Seasonal variations of mass absorption efficiency of elemental carbon in PM2.5 in urban Guangzhou of South China. Journal of Environmental Sciences 133, 83–92. https://doi.org/10.1016/j.jes.2022.04.019

6.         Tao, J., Huang, J., Bian, G., Zhang, L., Zhou, Z., Zhang, Z., Li, J., Miao, Y., Yuan, Z., Sha, Q., Xiao, L., Wang, B., 2023. Fine particulate pollution driven by nitrate in the moisture urban atmospheric environment in the Pearl River Delta region of south China. Journal of Environmental Management 326, 116704. https://doi.org/10.1016/j.jenvman.2022.116704

7.         Tao, J., Zhang, Z., Zhang, L., Li, J., Wu, Y., Pei, C., Nie, F., 2022. Quantifying the relative contributions of aqueous phase and photochemical processes to water-soluble organic carbon formation in winter in a megacity of South China. Chemosphere 300, 134598. https://doi.org/10.1016/j.chemosphere.2022.134598

8.         Tao, J., Zhang, Z., Zhang, L., Wu, Y., Fang, P., Wang, B., 2021b. Impact of aerosol liquid water content and its size distribution on hygroscopic growth factor in urban Guangzhou of South China. Science of The Total Environment 789, 148055. https://doi.org/10.1016/j.scitotenv.2021.148055

9.         Tao, J., Zhang, Z., Zhang, L., Huang D., and Wu, Y.:Quantifying the relative importance of major tracers for fine particles released from biofuel combustion in households in the rural North China Plain. Environmental Pollution, 268, 115764, 2021.

10.     Tao, J., Surapipith, V., Han, Z., Prapamontol, T., Zhang, R.: High mass absorption efficiency of carbonaceous aerosols during the biomass burning season in Chiang Mai of northern Thailand. Atmospheric Environment, 240, 117821, 2020.

11.     Tao, J., Zhang, L., Wu, Y., and Zhang, Z.: Evaluation of the IMPROVE formulas based on Mie model in the calculation of particle scattering coefficient in an urban atmosphere, Atmospheric Environment, 222, 117116, 2020.

12.     Tao, J., Zhang, Z., Wu, Y., Zhang, L., Wu, Z., Cheng, P., Li, M., Chen, L., Zhang, R., and Cao, J.: Impact of particle number and mass size distributions of major chemical components on particle mass scattering efficiency in urban Guangzhou in southern China, Atmospheric Chemistry and Physics, 19, 8471-8490, 2019.

13.     Tao, J., Zhang, Z., Tan, H., Zhang, L., Wu, Y., Sun, J., Che, H., Cao, J., Cheng, P., Chen, L., and Zhang, R.: Observational evidence of cloud processes contributing to daytime elevated nitrate in an urban atmosphere, Atmospheric Environment, 186, 209-215, 2018.

14.     Tao, J., Zhang, L., Cao, J., Zhong, L., Chen, D., Yang, Y., Chen, D., Chen, L., Zhang, Z., Wu, Y., Xia, Y., Ye, S., and Zhang, R.: Source apportionment of PM2.5 at urban and suburban areas of the Pearl River Delta region, south China - With emphasis on ship emissions, Science of The Total Environment, 574, 1559-1570, 2017.

15.     Tao, J., Zhang, L., Cao, J., and Zhang, R.: A review of current knowledge concerning PM2.5 chemical composition, aerosol optical properties and their relationships across China, Atmospheric Chemistry and Physics, 17, 2017.

16.     Tao, J., Zhang, L., Zhang, R., Wu, Y., Zhang, Z., Zhang, X., Tang, Y., Cao, J., and Zhang, Y.: Uncertainty assessment of source attribution of PM2.5 and its water-soluble organic carbon content using different biomass burning tracers in positive matrix factorization analysis - a case study in Beijing, China, Science of The Total Environment, 543, 326-335, 2016.

17.     Tao, J., Gao, J., Zhang, L., Wang, H., Qiu, X., Zhang, Z., Wu, Y., Chai, F., and Wang, S.: Chemical and optical characteristics of atmospheric aerosols in Beijing during the Asia-Pacific Economic Cooperation China 2014, Atmospheric Environment, 144, 8-16, 2016.

18.     Tao, J., Zhang, L., Zhang, Z., Huang, R., Wu, Y., Zhang, R., Cao, J., and Zhang, Y.: Control of PM2.5 in Guangzhou during the 16th Asian Games period: Implication for hazy weather prevention, Science of The Total Environment, 508, 57-66, 2015.

19.     Tao, J., Zhang, L., Gao, J., Wang, H., Chai, F., and Wang, S.: Aerosol chemical composition and light scattering during a winter season in Beijing, Atmospheric Environment, 110, 36-44, 2015.

20.     Tao, J., Zhang, L., Ho, K., Zhang, R., Lin, Z., Zhang, Z., Lin, M., Cao, J., Liu, S., and Wang, G.: Impact of PM2.5 chemical compositions on aerosol light scattering in Guangzhou - the largest megacity in South China, Atmospheric Research, 135–136, 48-58, 2014.

21.     Tao, J., Zhang, L., Cao, J., Hsu, S. C., Xia, X., Zhang, Z., Lin, Z., Cheng, T., and Zhang, R.: Characterization and source apportionment of aerosol light extinction in Chengdu, southwest China, Atmospheric Environment, 95, 552-562, 2014.

22.     Tao, J., Gao, J., Zhang, L., Zhang, R., Che, H., Zhang, Z., Lin, Z., Jing, J., Cao, J., and Hsu, S. C.: PM2.5 pollution in a megacity of southwest China: source apportionment and implication, Atmospheric Chemistry and Physics, 14, 8679-8699, 2014.

23.     Tao, J., Zhang, L., Engling, G., Zhang, R., Yang, Y., Cao, J., Zhu, C., Wang, Q., and Luo, L.: Chemical composition of PM2.5 in an urban environment in Chengdu, China: Importance of springtime dust storms and biomass burning, Atmospheric Research, 122, 270-283, 2013.

24.     Tao, J., Cheng, T., Zhang, R., Cao, J., Zhu, L., Wang, Q., Luo, L., and Zhang, L.: Chemical composition of PM2.5 at an urban site of Chengdu in southwestern China, Advances in Atmospheric Sciences, 30, 1070-1084, 2013.

25.     Tao, J., Shen, Z., Zhu, C., Yue, J., Cao, J., Liu, S., Zhu, L., and Zhang, R. J. A. R.: Seasonal variations and chemical characteristics of sub-micrometer particles (PM1) in Guangzhou, China, Atmospheric Research, 118, 222-231, 2012.

26.     Tao, J., Cao, J. J., Zhang, R.-J., Zhu, L., Zhang, T., Shi, S., and Chan, C. Y.: Reconstructed light extinction coefficients using chemical compositions of PM2.5 in winter in Urban Guangzhou, China, Advances in Atmospheric Sciences, 29, 359-368, 2012.

27.     Tao, J., Ho, K., Chen, L., Zhu, L., Han, J., and Xu, Z.: Effect of chemical composition of PM2.5 on visibility in Guangzhou, China, 2007 spring, Particuology, 7, 68-75, 2009.

28.     Wu, Y.F. Xia, Y.Zhou, C.Tian, P.Tao, J.Huang R et al., Effect of source variation on the size and mixing state of black carbon aerosol in urban Beijing from 2013 to 2019: Implication on light absorption, Environmental Pollution, 270, 116089, 2021.

29.     Zheng, Y., Che, H., Xia, X., Wang, Y., Wang, H., Wu, Y., Tao, J., Zhao, H., An, L., Li, L., Gui, K., Sun, T., Li, X., Sheng, Z., Liu, C., Yang, X., Liang, Y., Zhang, L., Liu, C., Kuang, X., Zhang, X.: Five-year observation of aerosol optical properties and its radiative effects to planetary boundary layer during air pollution episodes in North China: Intercomparison of a plain site and a mountainous site in Beijing. Sci Total Environ, 674:140-158. 2019.

30.     Lin M., Tao J., Chan C., et al. Regression Analyses between Recent Air Quality and Visibility Changes in Megacities at Four Haze Regions in China. Aerosol and Air Quality Research, 2012, 12: 1049–1061.

31.     Zhang, R.J, Tao, J., Ho, K.F., Shen, Z., Cao, J., Liu, S., Zhang, L., Lee, S.C., 2012. Characterization of springtime atmospheric organic and elemental carbon of PM2.5 in a typical semi-arid area of Northeastern China. Aerosol and Air Quality Research, 12, 792-802.

32.     Xu, J., Tao, J., Zhang,R., Cheng, T., Leng,  C., Chen,J., Huang, G., Li, X., Zhu, Z., 2012. Measurements of surface aerosol optical properties in winter of Shanghai. Atmospheric Research, 109-110, 25-35.

33.      Lin Z J, Tao J., Chai F H, Fan, S. J., Yue, J. H., Zhu, L. H., Ho, K. F., Zhang R. J.,.2013. Impact of relative humidity and particles size distribution on aerosol light extinction in urban area of Guangzhou. Atmos. Chem. Phys., 13, 1115–1128.

34.      Xu, H. M., Tao, J., Ho, S. S. H, Ho, K.F., Cao, J.J., Li ,N., Chow, J.C., Wang, G.H., Han, Y.M., Zhang, R.J., Waston, J.G., Zhang, J. Q. 2013. Characteristics of fine particulate non-polar organic compounds in Guangzhou during the 16th Asian Games: Effectiveness of air pollution controls, Atmospheric Environment, 76, 94-101.

35.     Cao, J.J., Chow, J.C., Tao, J., et al. Stable carbon isotopes in aerosols from Chinese cities: Influence of fossil fuels. Atmospheric Environment, 2011, 45:1359-1363.

36.     Yang, Y., Chan, C., Tao, J., et al. Observation of elevated fungal tracers due to biomass burning in the Sichuan Basin at Chengdu City, China. Science of the Total Environment, 2012,431, 68-77.

37.      Zhang, R., Jing, J., Tao, J., Hsu, S.-C., Wang, G., Cao, J., Lee, C. S. L., Zhu, L., Chen, Z., Zhao, Y. , Shen, Z. 2013. Chemical characterization and source apportionment of PM2.5 in Beijing: seasonal perspective, Atmos. Chem. Phys., 13, 7053–7074.

38.     Wang, Q., Cao, J., Shen, Z., Tao, J., Xiao, S., Luo, L., He, Q., Tang, X. 2013. Chemical characteristics of PM2.5 during dust storms and air pollution events in Chengdu, China, Particuology.11 (1), 70-77.

39.     Zha, S., Cheng, T., Tao J., Zhang, R., Chen, J., Zhang, Y., Du, J. Characteristics and relevant remote sources of black carbon aerosol in Shanghai. Atmospheric Research, 135,159-171. 2014.

40.      Lin, Z. J., Zhang, Z. S., Zhang, L., Tao, J.*, Zhang, R. J., Cao, J. J., and Zhang, Y. H.: An alternative method estimating hygroscopic growth factor of aerosol light scattering coefficient: a case study in an urban area of Guangzhou, South China, Atmos. Chem. Phys., 14, 7631-7644, doi:10.5194/acp-14-7631-2014, 2014.

41.     Leng, C., Zhang, Q., Tao, J., Zhang, H., Zhang, D., Xu, C., Li, X., Kong, L., Cheng, T., Zhang, R., 2014. Impacts of new particle formation on aerosol cloud condensation nuclei (CCN) activity in Shanghai: case study. Atmospheric Chemistry and Physics 14, 11353-11365.

42.     Wang, G., Cheng, C., Huang, Y., Tao, J., Ren, Y., Wu, F., Meng, J., Li, J., Cheng, Y., Cao, J., 2014. Evolution of aerosol chemistry in Xi'an, inland China, during the dust storm period of 2013–Part 1: Sources, chemical forms and formation mechanisms of nitrate and sulfate. Atmospheric Chemistry and Physics 14, 11571-11585.

43.     Chen, X., Zhang, Z., Engling, G., Zhang, R., Tao, J., Lin, M., Sang, X., Chan, C., Li, S., Li, Y., 2014. Characterization of fine particulate black carbon in Guangzhou, a megacity of South China. Atmospheric Pollution Research, 5,361-370.

44.     Hsu, S.C., Lee, C.S.L., Huh, C.A., Shaheen, R., Lin, F.J., Liu, S.C., Liang, M.C., Tao, J., 2014. Ammonium deficiency caused by heterogeneous reactions during a super Asian dust episode. Journal of Geophysical Research: Atmospheres,119(11),6803-6817.

45.     Tao, R., Che, H., Chen, Q., Tao, J., Wang, Y., Sun, J., Wang, H., Zhang, X., 2014. Study of Aerosol Optical Properties Based on Ground Measurements over Sichuan Basin, China. Aerosol and Air Quality Research 14, 905-915.

46.     Huang, G., Cheng, T., Zhang, R., Tao, J., Leng, C., Zhang, Y., Zha, S., Zhang, D., Li, X., Xu, C., 2014. Optical properties and chemical composition of PM2.5 in Shanghai in the spring of 2012. Particuology 13, 52-59.

47.     Zhang, Z., Gao, J., Engling, G., Tao, J., Chai, F., Zhang, L., Zhang, R., Sang, X., Chan, C., Lin, Z., 2015. Characteristics and applications of size-segregated biomass burning tracers in China’s Pearl River Delta region. Atmospheric Environment,102,290-301.

48.     张智胜,陶俊,陆俊卿,吴国增.粤港澳大湾区空气质量改善面临的挑战及国外湾区经验启示[J].环境保护,2019,47(23):61-63.

49.     杨毅红,陶俊,朱李华,张智胜,王启元,曹军骥.中国西部背景地区PM2.5化学组分特征及其对大气散射系数的影响[J].环境科学学报,2017,37(04):1216-1226.

50.     苏彬彬,张智胜,陶俊,许椐洋,纪贤鑫,刘心东,张若宇.春季华东高山背景区域PM2.5PM2.510中水溶性无机离子特征[J].环境科学,2015,36(04):1195-1201.

51.     苏彬彬,许椐洋,纪贤鑫,陶俊,张智胜,张若宇.春季沙尘过程对华东高山背景区域颗粒物中水溶性无机离子的影响[J].环境科学学报,2015,35(11):3463-3472.

52.     徐薇,修光利,陶俊,王丽娜,朱梦雅,黄众思,蔡婧,乔婷,张大年.上海市大气散射消光特征及其与颗粒物化学组成关系研究[J].环境科学学报,2015,35(02):379-385.

53.     张智胜,陶俊,龙颖贤,林泽健.成都城区PM2.5中有害微量元素的污染特征[J].中国科学院大学学报,2014,31(03):426-430+438.

54.     陶俊,张仁健,段菁春,荆俊山,朱李华,陈忠明,赵岳,曹军骥.北京城区PM2.5中致癌重金属季节变化特征及其来源分析[J].环境科学,2014,35(02):411-417.

55.     苏彬彬,刘心东,陶俊.华东森林及高山背景区域SO2NOxCO本底特征[J].中国环境监测,2013,29(06):15-21.

56.     宋丹林,陶俊,张普,周子航,李从庆,周来东.成都城区颗粒物消光系数特征及其与PM2.5的关系[J].中国科学院大学学报,2013,30(06):757-762.

57.     杨毅红,陶俊,高健,李雄,施展,韩保新,谢文彰,曹军骥.中国北部湾地区夏季大气碳气溶胶的空间分布特征[J].环境科学,2013,34(11):4152-4158.

58.     张智胜,陶俊,谢绍东,周来东,宋丹林,张普,曹军骥,罗磊.成都城区PM2.5季节污染特征及来源解析[J].环境科学学报,2013,33(11):2947-2952.

59.     戴永立,陶俊,林泽健,谢绍东,曹军骥,张仁健.20062009年我国超大城市霾天气特征及影响因子分析[J].环境科学,2013,34(08):2925-2932.

60.     陶俊,柴发合,高健,曹军骥,刘随心,张仁健.16届亚运会期间广州城区PM2.5化学组分特征及其对霾天气的影响[J].环境科学,2013,34(02):409-415.

61.     苏彬彬,刘心东,陶俊.华东区域高山背景点PM10PM2.5背景值及污染特征[J].环境科学,2013,34(02):455-461.

62.     王启元,陶俊,任鹏奎,沈振兴,罗磊,唐信英.成都市冬季大气PM2.5的化学组成及对能见度的影响[J].地球环境学报,2012,3(05):1104-1108.

63.     刘明,陈来国,陶俊,许振成,朱李华,钱冬林,范瑞芳.广州市大气气态总汞含量季节和日变化特征[J].中国环境科学,2012,32(09):1554-1558.

64.     岳建华,陶俊,林泽健,朱李华,曹军骥,罗磊.成都春季生物质燃烧和沙尘期间气溶胶散射特征及其重建[J].环境科学,2012,33(07):2151-2157.

65.     朱李华,陶俊,陈忠明,赵岳,张仁健,曹军骥.20101月北京城区大气消光系数重建及其贡献因子[J].环境科学,2012,33(01):13-19.

66.     陶俊,柴发合,朱李华,高健,曹军骥,王启元,罗磊.2009年春季成都城区碳气溶胶污染特征及其来源初探[J].环境科学学报,2011,31(12):2756-2761.

67.     朱李华,陶俊,张仁健,曹军骥,张涛,林泽健,许振成.冬夏季广州城区碳气溶胶特征及其与O3和气象条件的关联[J].环境科学学报,2010,30(10):1942-1949.

68.     陶俊,张仁健,董林,张涛,朱李华,韩静磊,许振成.夏季广州城区细颗粒物PM2.5PM1.0中水溶性无机离子特征[J].环境科学,2010,31(07):1417-1424.

69.     陶俊,张仁健,许振成,陈来国,朱李华,韩静磊,曹军骥.广州冬季大气消光系数的贡献因子研究[J].气候与环境研究,2009,14(05):484-490.

70.     张涛,陶俊,王伯光,朱李华,韩静磊,许振成.20081月广州颗粒物数浓度污染特征[J].中国环境监测,2009,25(02):31-34.



科研项目


1. 珠三角典型城市大气颗粒物质量散射效率变化的驱动机制研究;国家自然科学基金面上项目;2015-2018年;项目编号41475119

2. 珠三角典型城市大气环境水溶性有机物吸湿增长特性研究;国家自然科学基金面上项目;2019-2022年;项目编号41875160



研究团队


光化学污染机理与控制团队