2015.12-2016.12:美国加州大学尔湾分校(UCI) 地球系统科学系,访问学者
2012.09-2018.12:中山大学,博士
2008.09-2012.07:中山大学,本科
1.自然源(BVOCs和土壤NO)排放特征及其对二次污染的影响
2.臭氧污染特征及成因分析
3.气溶胶化学组分特征、光学特征及其对空气质量的影响
2018年:2018年度环境保护科学技术奖二等奖(本人排名第四)
2017年:第23届中国大气环境科学与技术大会暨中国环境科学学会大气环境分会2017年学术年会优秀墙报奖
2016年:2016年广东省环境保护科学技术奖一等奖(本人排名第四)
1. Chen W.H., Guenther A.*, Wang X.M.*, Gu D.S., Chang M., Zhou S.Z., Wu L.L., and Zhang Y.Q. Regional to global biogenic isoprene emission responses to changes in vegetation from 2000 to 2015. Journal of Geophysical Research, Atmosphere, 2018, 123(7): 3757-3771, doi: 10.1002/2017JD027934.
2. Chen W.H., Wang X.M. *, Cohen J.B., Zhou S.Z. *, Zhang Z.S., Chang M., and Chan C.Y. Properties of aerosols and formation mechanisms over southern China during the monsoon season. Atmospheric Chemistry and Physics, 2016, 16:13271-13289, doi:10.5194/acp-16-13271-2016.
3. Chen W.H., Wang X.M. *, Zhou S.Z. *, Cohen, J.B., Zhang J.P., Wang Y., Chang M., Zeng Y.J., Liu Y.X., Lin Z.H., Liang G.X., and Qiu X.N. Chemical composition of PM2.5 and its impact on visibility in Guangzhou, Southern China. Aerosol and Air Quality Research, 2016, 16(10): 2349-2361,doi: 10.4209/aaqr.2016.02.0059.
4. Ma, M.R., Chen, W.H., Jia, S.G., Chang, M., Zhong, B.Q., Wang, X.M. (2020). A new method for quantification of regional nitrogen emission-deposition transmission in China. Atmospheric Environment. (in press)
5. Chang, M., Cao, J.C., Ma, M.R., Liu, Y.M., Liu, Y.Q., Chen, W.H., Fan, Q., Liao, W.H., Jia, S.G., Wang, W.M. (2020). Dry deposition of reactive nitrogen to different ecosystems across eastern China: a comparison of three community models, Science of The Total Environment. (in press)
6. Chang, M., Liao, W.H., Wang, X.M., Zhang, Q., Chen, W.H., Wu, Z.Y., Hu, Z.C. (2020). An optimal ensemble of the Noah-MP land surface model for simulating surface heat fluxes over a typical subtropical forest in South China. Agricultural and Forest Meteorology, 281, 107815.
7. Pang, J.M., Wang, X.M., Shao, M., Chen, W.H., & Chang, M. (2020). Aerosol optical depth assimilation for a modal aerosol model: Implementation and application in AOD forecasts over East Asia. Science of The Total Environment, 719:137430.
8. Jia S.G., Zhang Q., Sarkarc S., Mao J.Y., Hang J., Chen W.H., Wang X.M.*, Yuan L., Yang L.M., Ye G.Q., Zhou S.Zs.*, Size-segregated deposition of atmospheric elemental carbon (EC) in the human respiratory system: A case study of the Pearl River Delta, China. Science of the Total of Environment.2019. 708: 134932.
9. Zhou S.Z., Wu L.L., Guo J.C., Chen W.H., Wang X.M.*, Zhao J., Cheng Y.F., Huang Z.Z., Zhang J.P., Sun Y.L., Fu P.Q., Jia S.G., Tao J., Chen Y.N., Kuang J.X., Vertical distribution of atmospheric particulate matters within urban boundary layer in southern China: Size-segregated chemical composition and secondary formation through cloud processing and heterogeneous reactions. Atmospheric Chemistry and Physics. 2019. DOI:10.1016/j.agrformet.2019.107815.
10. Chang M., Chen W.H., Deng S.X., Wang X.M.*, and Zhou S.Z. Are typhoon and marine eutrophication the possible missing sources of high dissolved organic nitrogen in wet deposition? Atmospheric and Oceanic Science Letters, 2019, 1-6.
11. Wang X.M.*, Chen W.H., Chen D.H., Wu Z.Y., and Fan Q. Long-term trends of fine particulate matter and chemical composition in the Pearl River Delta Economic Zone (PRDEZ), China. Frontiers of Environmental Science & Engineering, 2016, 10(1):53-62.
12. Cui H.Y., Chen W.H., Dai W., Liu H. *, Wang X.M. *, and He. K.B. Source apportionment of PM2.5 in Guangzhou combining observation data analysis and chemical transport model simulation. Atmospheric Environment, 2015, 116: 262-271.
13. Wang X.M.*, Situ S.P., Chen W.H., Zheng J.Y., Guenther A., Fan Q., and Chang M. Numerical model to quantify biogenic volatile organic compound emissions: The Pearl River Delta region as a case. Journal of Environment Sciences, 2016, 46: 72-82.
14. Zhou S.Z., Davy P.K., Huang M.J., Duan J.B., Wang X.M.*, Fan Q., Chang M., Liu Y.M., Chen W.H., Xie S.J., Ancelet T., and Trompetter W.J. High-resolution sampling and analysis of ambient particulate matter in the Pearl River Delta region of southern China: source apportionment and health risk implications. Atmospheric Chemistry and Physics. 2018, 18:2049-2064.
15. Zhou S.Z., Davy P.K.,Wang X.M. *, Cohen J.B., Liang J.Q., Huang M.J., Fan Q., Chen W.H., Chang M., Ancelet T., and Trompetter W.J. High time-resolved elemental components in fine and coarse particles in the Pearl River Delta region of Southern China: dynamic variations and effects of meteorology. Science of the Total of Environment.2016, 572: 634-648.
16. Liu J.W., Ding P., Zong Z., Li J.*, Tian C.G., Chen W.H., Chang M., Salazar G., Shen C.D., Cheng Z.N., Chen Y.J., Wang X.M., Szidat S., and Zhang. G. Evidence of rural and suburban sources of urban haze formation in China. Journal of Geophysical Research, Atmosphere, 2018, 123(9): 4712-4726.
17. Jia S.G., Sarkar S., Zhang Q., Wang X.M.*, Wu L.L., Chen W.H., Huang M.J., Zhou S.Z., Zhang J.P., Luan Y., and Yang L.M. * Characterization of diurnal variations of PM 2.5 acidity using an open thermodynamic system: A case study of Guangzhou, China. Chemosphere, 2018,202, 677-685.
18. Ye L.M., Wang X.M. *, Fan S.F., Chen W.H., Chang M., Zhou S.Z., Wu Z.Y., and Fan Q. Photochemical indicators of ozone sensitivity: application in the Pearl River Delta, China. Frontiers of Environmental Science & Engineering, 2016, 10(6):1-12.
19. Wang, X.M.*, Liao, J.B., Zhang, J., Shen, C., Chen, W.H., Xia, B.C., and Wang, T.J. A numeric study of regional climate change induced by urban expansion in Pearl River Delta, China. Journal of Applied Meteorology and Climatology, 2014, 53(2): 346-362.
20. Chang M., Fan S.F., Fan Q., Chen W.H., Zhang Y.Q., Wang Y., and Wang X.M.*. Impact of refined land surface properties on the simulation of a heavy convective rainfall process in Pearl River Delta region, China. Asia-Pacific Journal of Atmospheric Science, 2014, 50(5): 1-11.
21. Zhang Q., Chang M.*, Zhou S.Z., Chen W.H., Wang X.M.*, Liao W.H., Dai J.N., and Wu Z.Y. Evaluate Dry Deposition Velocity of the Nitrogen Oxides using Noah-MP Physics Ensemble Simulations for the Dinghushan Forest, Southern China. Asia-Pacific Journal of Atmospheric Science, 2017, 53(4): 519-536.
22. 吴洛林,周柳艺,王雪梅*,陈伟华,戴佳宁,沙琛源,常鸣. 肇庆市PM2.5重污染天气形势及冬季典型污染过程输送特征研究.热带气象学报, 2017, 33(5):782-792.
23. 毛敬英,周柳艺,陈伟华,吴洛林,王雪梅*. “四维通量法”在珠三角地区秋季PM2.5区域输送研究中的应用.中国科学技术, 2019, 01:85-91.
24. 刘叶新*,陈伟华,王雪梅,曾燕君,张金谱,张宇晴,丁翔. 广州PM2.5化学组分特征及其与气象因子的关系.环境科学学报, 2019, 39(1):3-63.
国家青年基金项目,“生物源挥发性有机物对大气氮沉降的响应及其对臭氧分布格局的影响”,主持人
区域空气质量与气候相互作用数值模拟
Numerical modelling of regional air quality and climate interaction
Education/Work Experience
2015.12-2016.12:Department of Earth System Science, University of California, Irvine (UCI), USA, visting scholar
2012.09-2018.12:Sun Yat-Sen University (SYSU),PhD
2008.09-2012.07:Sun Yat-Sen University (SYSU),Bachelor
Research Direction:
1. The characteristics of BVOCs emission and its effect on air pollution
2. The characteristics of PM2.5 and chemical components
3. The impact of fine particle on the visibility and air quality
Awards:
2018:Second prize of Environmental Protection science and technology (2018) (Rank 4th)
2017:The 23rd China Atmospheric Environment Science and Technology Conference and Atmospheric Environment Branch of Chinese Academy of Environmental Sciences 2017 Annual Conference (Best Poster Award)
2016:First prize of environmental protection science from Guangdong Environmental Protection Department in 2016 (Rank 4th)
Publication:
1. Chen W.H., Guenther A.*, Wang X.M.*, Gu D.S., Chang M., Zhou S.Z., Wu L.L., and Zhang Y.Q. Regional to global biogenic isoprene emission responses to changes in vegetation from 2000 to 2015. Journal of Geophysical Research, Atmosphere, 2018, 123(7): 3757-3771, doi: 10.1002/2017JD027934.
2. Chen W.H., Wang X.M. *, Cohen J.B., Zhou S.Z. *, Zhang Z.S., Chang M., and Chan C.Y. Properties of aerosols and formation mechanisms over southern China during the monsoon season. Atmospheric Chemistry and Physics, 2016, 16:13271-13289, doi:10.5194/acp-16-13271-2016.
3. Chen W.H., Wang X.M. *, Zhou S.Z. *, Cohen, J.B., Zhang J.P., Wang Y., Chang M., Zeng Y.J., Liu Y.X., Lin Z.H., Liang G.X., and Qiu X.N. Chemical composition of PM2.5 and its impact on visibility in Guangzhou, Southern China. Aerosol and Air Quality Research, 2016, 16(10): 2349-2361,doi: 10.4209/aaqr.2016.02.0059.
4. Ma, M.R., Chen, W.H., Jia, S.G., Chang, M., Zhong, B.Q., Wang, X.M. (2020). A new method for quantification of regional nitrogen emission-deposition transmission in China. Atmospheric Environment. (in press)
5. Chang, M., Cao, J.C., Ma, M.R., Liu, Y.M., Liu, Y.Q., Chen, W.H., Fan, Q., Liao, W.H., Jia, S.G., Wang, W.M. (2020). Dry deposition of reactive nitrogen to different ecosystems across eastern China: a comparison of three community models, Science of The Total Environment. (in press)
6. Chang, M., Liao, W.H., Wang, X.M., Zhang, Q., Chen, W.H., Wu, Z.Y., Hu, Z.C. (2020). An optimal ensemble of the Noah-MP land surface model for simulating surface heat fluxes over a typical subtropical forest in South China. Agricultural and Forest Meteorology, 281, 107815.
7. Pang, J.M., Wang, X.M., Shao, M., Chen, W.H., & Chang, M. (2020). Aerosol optical depth assimilation for a modal aerosol model: Implementation and application in AOD forecasts over East Asia. Science of The Total Environment, 719:137430.
8. Jia S.G., Zhang Q., Sarkarc S., Mao J.Y., Hang J., Chen W.H., Wang X.M.*, Yuan L., Yang L.M., Ye G.Q., Zhou S.Zs.*, Size-segregated deposition of atmospheric elemental carbon (EC) in the human respiratory system: A case study of the Pearl River Delta, China. Science of the Total of Environment.2019. 708: 134932.
9. Zhou S.Z., Wu L.L., Guo J.C., Chen W.H., Wang X.M.*, Zhao J., Cheng Y.F., Huang Z.Z., Zhang J.P., Sun Y.L., Fu P.Q., Jia S.G., Tao J., Chen Y.N., Kuang J.X., Vertical distribution of atmospheric particulate matters within urban boundary layer in southern China: Size-segregated chemical composition and secondary formation through cloud processing and heterogeneous reactions. Atmospheric Chemistry and Physics. 2019. DOI:10.1016/j.agrformet.2019.107815.
10. Chang M., Chen W.H., Deng S.X., Wang X.M.*, and Zhou S.Z. Are typhoon and marine eutrophication the possible missing sources of high dissolved organic nitrogen in wet deposition? Atmospheric and Oceanic Science Letters, 2019, 1-6.
11. Wang X.M.*, Chen W.H., Chen D.H., Wu Z.Y., and Fan Q. Long-term trends of fine particulate matter and chemical composition in the Pearl River Delta Economic Zone (PRDEZ), China. Frontiers of Environmental Science & Engineering, 2016, 10(1):53-62.
12. Cui H.Y., Chen W.H., Dai W., Liu H. *, Wang X.M. *, and He. K.B. Source apportionment of PM2.5 in Guangzhou combining observation data analysis and chemical transport model simulation. Atmospheric Environment, 2015, 116: 262-271.
13. Wang X.M.*, Situ S.P., Chen W.H., Zheng J.Y., Guenther A., Fan Q., and Chang M. Numerical model to quantify biogenic volatile organic compound emissions: The Pearl River Delta region as a case. Journal of Environment Sciences, 2016, 46: 72-82.
14. Zhou S.Z., Davy P.K., Huang M.J., Duan J.B., Wang X.M.*, Fan Q., Chang M., Liu Y.M., Chen W.H., Xie S.J., Ancelet T., and Trompetter W.J. High-resolution sampling and analysis of ambient particulate matter in the Pearl River Delta region of southern China: source apportionment and health risk implications. Atmospheric Chemistry and Physics. 2018, 18:2049-2064.
15. Zhou S.Z., Davy P.K.,Wang X.M. *, Cohen J.B., Liang J.Q., Huang M.J., Fan Q., Chen W.H., Chang M., Ancelet T., and Trompetter W.J. High time-resolved elemental components in fine and coarse particles in the Pearl River Delta region of Southern China: dynamic variations and effects of meteorology. Science of the Total of Environment.2016, 572: 634-648.
16. Liu J.W., Ding P., Zong Z., Li J.*, Tian C.G., Chen W.H., Chang M., Salazar G., Shen C.D., Cheng Z.N., Chen Y.J., Wang X.M., Szidat S., and Zhang. G. Evidence of rural and suburban sources of urban haze formation in China. Journal of Geophysical Research, Atmosphere, 2018, 123(9): 4712-4726.
17. Jia S.G., Sarkar S., Zhang Q., Wang X.M.*, Wu L.L., Chen W.H., Huang M.J., Zhou S.Z., Zhang J.P., Luan Y., and Yang L.M. * Characterization of diurnal variations of PM 2.5 acidity using an open thermodynamic system: A case study of Guangzhou, China. Chemosphere, 2018,202, 677-685.
18. Ye L.M., Wang X.M. *, Fan S.F., Chen W.H., Chang M., Zhou S.Z., Wu Z.Y., and Fan Q. Photochemical indicators of ozone sensitivity: application in the Pearl River Delta, China. Frontiers of Environmental Science & Engineering, 2016, 10(6):1-12.
19. Wang, X.M.*, Liao, J.B., Zhang, J., Shen, C., Chen, W.H., Xia, B.C., and Wang, T.J. A numeric study of regional climate change induced by urban expansion in Pearl River Delta, China. Journal of Applied Meteorology and Climatology, 2014, 53(2): 346-362.
20. Chang M., Fan S.F., Fan Q., Chen W.H., Zhang Y.Q., Wang Y., and Wang X.M.*. Impact of refined land surface properties on the simulation of a heavy convective rainfall process in Pearl River Delta region, China. Asia-Pacific Journal of Atmospheric Science, 2014, 50(5): 1-11.
21. Zhang Q., Chang M.*, Zhou S.Z., Chen W.H., Wang X.M.*, Liao W.H., Dai J.N., and Wu Z.Y. Evaluate Dry Deposition Velocity of the Nitrogen Oxides using Noah-MP Physics Ensemble Simulations for the Dinghushan Forest, Southern China. Asia-Pacific Journal of Atmospheric Science, 2017, 53(4): 519-536.
22. Wu L.L., Zhou L.Y., Wang X.M.*, Chen W.H., Dai J.N., Sha C.Y., and Chang M., Weather conditions and transport characteristics of PM2.5 polluted episodes in Zhaoqing. Journal of Tropical Meteorology, 2017, 33(5):782-792 (in Chinese)
23. Mao J.Y., Zhou L.Y., Chen W.H., Wu L.L., and Wang X.M.* Weather conditions and transport characteristics of PM2.5 polluted episodes in Zhaoqing. 2019
24. Liu Y.X.*, Chen W.H., Wang X.M., Zeng Y.J., Zhang J.P., Zhang Y.Q., Ding X. Chemical composition of PM2.5 and its relations with meteorological factors in Guangzhou. Acta Scientiae Circumstantiae, 2019, 39(1):3-63. (in Chinese)
Research Projects:
National Science Foundation for Young Scientists of China (41905086)—The response of biogenic volatile organic compounds to atmospheric nitrogen deposition and their effects on the distribution pattern of surface ozone (2020.01.01-2022.12.31)