工作经历:
2023.10-至今:暨南大学环境与气候研究院,副研究员
2022.1-2023.9:暨南大学环境与气候研究院,助理研究员
2019.3-2021.12:暨南大学环境与气候研究院,博士后(合作导师:王雪梅)
教育背景:
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(合作导师:Alex Guenther)
2012.09-2018.12:中山大学环境科学与工程学院,博士(保研,硕博连读,导师:王雪梅)
2008.09-2012.07:中山大学环境科学与工程学院,本科
教学经历:
本科生课程《空气污染气象学》
1.自然源排放特征及其对二次污染的影响
2.二次污染特征及归因诊断分析
3.区域大气环境数值模拟
2018年:2018年度环境保护科学技术奖二等奖(本人排名第四)
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)
第一或通讯作者
1. Chen, W.H.#, Jia, S.G.#, Wang, X.M.*, Shao, M.*, Liao, W.H., Guenther, A., Flechard, C., Yu, P.F., Zhong, B.Q., Chang, M., Wang, W.W., Mao, J.Y., Liu, X.J., Yu, G.R., Carmichael, G. Precipitation trend increases the contribution of dry reduced nitrogen deposition. npj Climate and Atmospheric Science, 2023, 6, 62.
2. Chen, W.H., Guenther, A.B., Shao, M., Yuan, B., Jia, S.G., Mao, J.Y., Yan, F.H., Krishnan, P., Wang, X.M.*. Assessment of background ozone concentrations in China and implications for using region-specific volatile organic compounds emission abatement to mitigate air pollution. Environmental Pollution, 2022, 305, 119254.
3. Chen, W.H., Guenther, A.B., Jia, S.G., Mao, J.Y., Yan, F.H., Wang, X.M.*, Shao, M.*. Synergistic effects of biogenic volatile organic compounds and soil nitric oxide emissions on summertime ozone formation in China. Science of the Total Environment, 2022, 828, 154218.
4. Chen, W.H., Wang, W.W., Jia, S.G., Mao, J.Y., Yan, F.H., Zheng, L.M., Wu, Y.K., Zhang, X.T., Dong, Y.T., Kong, L.B., Zhong, B.Q., Chang, M., Shao, M., and Wang, X.M.*. A new index developed for fast diagnostics of meteorological roles in ground-level ozone variations. Advances in Atmospheric Sciences, 2022, 39(3), 403-414.
5. 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.
6. 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.
7. 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.
8. Yan, F.H. #, Chen, W.H.#, Jia, S.G.*, Zhong, B.Q., Yang, L.M., Mao, J.Y., Chang, M., Shao, M., Yuan, B., Situ, S.P., Wang, X.M., Chen, D.H., Wang, X.M.*. Stabilization for the secondary species contribution to PM2.5 in the Pearl River Delta (PRD) over the past decade, China: a meta-analysis. Atmospheric Environment, 2020, 242, 117817.
9. Zheng, L.M. #, Chen, W.H.#, Jia, S.G., Wu, L.L., Zhong, B.Q., Liao, W.H., Chang, M., Wang, W.W.*, and Wang, X.M.*. Temporal and spatial patterns of nitrogen wet deposition in different weather types in the Pearl River Delta (PRD), China. Science of the Total Environment, 2020, 20, 139936.
10. Jia, S.G. #, Chen, W.H.#, Zhang, Q., Krishnan, P., Mao, J.Y., Zhong, B.Q., Huang, M.J., Fan, Q., Zhang, J.P., and Yang, L.M. A quantitative analysis of the driving factors affecting seasonal variation of aerosol pH in Guangzhou, China, Science of the Total Environment. 2020, 725, 138228.
11. Wu, Y.K., Chen, W.H.*, You, Y.C., Xie, Q.Q., Jia, S.G., Wang, X.M. Quantitative impacts of vertical transport on the long-term trend of nocturnal ozone increase over the Pearl River Delta region during 2006-2019. Atmospheric Chemistry and Physics, 2023, 23(1), 453-469.
12. Li, M.L., Mao, J.Y., Chen, S.Q., Bian, J.C., Bai, Z.X., Wang, X.M., Sun Z.L., Chen, W.H.*, and Yu, P.F.*. Significant contribution of the lightning NOx to the summertime surface ozone at Tibetan Plateau. Science of the Total Environment, 2022, 829, 154639.
13. Mao, J.Y., Yan, F.H., Zheng, L.M., You, Y.C., Wang, W.W., Jia, S.G., Liao, W.H., Wang, X.M., Chen, W.H.*. Ozone control strategies for local formation– and regional transport– dominant scenarios in a manufacturing city in southern China. Science of the Total Environment, 2022, 813, 151883.
14. Zheng, L.M., Lin, R., Wang, X.M., Chen, W.H.* The development and application of machine learning in atmospheric environment study. Remote Sensing, 2021, 13(23), 4839.
15. Jia, S.G., Zhang, Q., Yang, L.M., Sarkar S., Padmaja, K., Mao, J.Y., Hang, J., Chang, M., Zhang, Y.Q., Wang, X.M., Chen, W.H.*. Deposition of ambient particles in human respiratory system based on single particle analysis: a case study in PRD, China. Environmental Pollution, 2021, 283, 117056.
16. 欧林冲,陈伟华*,伍永康,吴乐敏,王雪梅. 中国高温下臭氧抑制事件的时空特征及其影响因素研究. 环境科学. 2023, 44(12).
17. 司徒淑娉,莫海华,陈辰,何焯燃,安丽娜,邓思欣,周炎,邝敏儿,陈伟华*. 佛山市2017-2019年臭氧污染特征及其与气象条件的关系. 中山大学学报(自然科学版). 2022, 61(6), 28–35.
18. 伍永康, 陈伟华*,颜丰华,毛敬英,袁斌,王伟文,王雪梅.不同传输通道下珠江三角洲臭氧与前体物非线性响应关系. 环境科学. 2022, 43(1), 160-168, https://doi.org/10.13227/j.hjkx.202104141.
19. 刘玉琦, 颜丰华,郑炼明,常鸣,马明睿,陈伟华*,王雪梅. 基于“质心”迁移的典型城市群氮排放-干沉降输送过程研究. 环境科学学报,2021, 41(8), 3051-3060
合作者
20. You, Y.C., Wang, W.M.*, Wu, Y.K., Chen, W.H., Chen, B.Y., Chang, M. Quantified the influence of different synoptic weather patterns on the transport and local production processes of O3 events in Pearl River Delta, China.Science of the Total Environment, 2023, 169066.
21. Wu, L.P., Yang, L.T., Zhang, Y.Q., Wu, G.T., Chen, W.H., Situ, S.P., Chang, M., Wang, X.M. Prediction of ozone pollution impacts in the Pearl River Delta based on vegetation planning. Atmospheric Environment, 2023, 119936.
22. Zhang, Q., Jia, S.G., Chen, W.H., Mao, J.Y., Yang, L.M., Krishnan, P., Sarkar, S., Shao, M., Wang, X.M.* Contribution of marine biological emissions to gaseous methylamines in the atmosphere: an emission inventory based on satellite data. Science of the Total Environment, 2023, 165285.
23. Ding, H., Kong, L.B. *, You, Y.C., Mao, J.Y., Chen, W.H., Chen, D.H., Chang, M.*, Wang, X.M. Effects of tropical cyclones with different tracks on ozone pollution over the Pearl River Delta region. Atmospheric Research, 2023, 286,106680.
24. Chen, H.X., Chen, B.Y., Wang, W.W.*, Chen, W.H., Chang, M., Wang, X.M., Contribution of future urbanization to summer regional warming in the Pearl River Delta. Urban Climate, 2023, 49, 101476.
25. He, S.D., Huang, M.J., Zheng, L.M., Chang, M., Chen, W.H., Xie, Q.Q., and Wang, X.M.*. (2021). The seasonal variations of transport pathways and potential source areas at high-IN wet deposition sites in Southern China. Journal of Environmental Science, 2022.
26. Mao, J.Y., Zhou, L.X., Wu, L.Q., Chen, W.H., Wang X.M.* and Yu, P.F.*. Evaluation of Biogenic Organic Aerosols over the Amazon Rainforest Using WRF-Chem with MOSAIC. Journal of Geophysical Research, Atmosphere, 2021, 126, e2021JD034913.
27. Shao, M., Wang, W.J., Yuan, B.*, Parish, D.D., Li, X., Lu, K.D., Wu, L.L., Wang, X.M. *, Mo, Z.W., Yang, S.X., Peng, Y.W., Kuang, Y., Chen, W.H., Hu, M., Zeng, L.M., Su, H., Cheng, Y.F., Zheng, J.Y., Zhang, Y.H. Quantifying the role of PM2.5 dropping in variations of ground-level ozone: intercomparison between Beijing and Los Angeles. Science of the Total Environment, 2021, 788, 147712.
28. Ye, L.M., Zhong, B.Q., Huang, M.J., Chen, W.H., Wang, X.M.*. Pollution evaluation and children's multimedia exposure of atmospheric arsenic deposition in the Pearl River Delta, China. Science of the Total Environment, 2021,787: 147629.
29. Kong, L.B., Xin, J.Y.*, Gao, W.K., Tan, G.Q., Wang, X.M., Yang, Y.S., Zhang, W.Y., Chen, W.H., Jia, S.G. A comprehensive evaluation of aerosol extinction apportionment in Beijing using a High-Resolution Time-of-Flight Aerosol Mass Spectrometer. Science of the Total Environment, 2021, 783, 146976.
30. Mao, J.Y., Yang, L.M., Mo, Z.Y., Jiang, Z.K., Krishnan, P., Sarkar, S., Zhang, Q., Chen, W.H., Zhong, B.Q., Yang, Y., Jia, S.G.*, Wang, X.M.*. Comparative study of chemical characterization and source apportionment of PM2.5 in South China by filter-based and single particle analysis. Elementa: Science of the Anthropocene. 2021, 9(1), 00046.
31. Chang, M., Zhu, S.J., Cao, J.C., Chen, B.Y., Zhang, Q., Chen, W.H., Jia, S.G., Krishnan, P., Wang, X.M.*. Improvement and Impacts of Forest Canopy Parameters on Noah-MP Land Surface Model from UAV-Based Photogrammetry. Remote Sensing, 2020, 12, 4120.
32. Zhong, B.Q., Wang, X.M.*, Ye, L.M., Ma, M.R., Jia, S.G., Chen, W.H., Yan, F.H., Wen, Z., Padmaja, K. Meteorological variations impeded the benefits of recent NOx mitigation in reducing atmospheric nitrate deposition in the Pearl River Delta region, Southeast China. Environmental Pollution, 2020, 226, 115076.
33. 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., and Kuang, J.X. Measurement report: Vertical distribution of atmospheric particulate matter within the urban boundary layer in southern China – size-segregated chemical composition and secondary formation through cloud processing and heterogeneous reactions.Atmospheric Chemistry and Physics, 2020, 20, 6435-6453.
34. Chen, Y.H., Wu, Y.B., Chen, W.H., Zhao, T., Zhang, W.Y., Shen, T.J.*. Application of a Negative Multinomial Model Gives Insight into Rarity-Area Relationships. Forest. 2020, 11(5): 571.
35. Ma, M.R., Chen, W.H., Jia, S.G., Chang, M.*, Zhong, B.Q., and Wang, X.M.*. A new method for quantification of regional nitrogen emission-deposition transmission in China. Atmospheric Environment. 2020, 227, 117401.
36. 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., and Wang, W.M.*. Dry deposition of reactive nitrogen to different ecosystems across eastern China: a comparison of three community models, Science of the Total Environment. 2020, 720, 137548.
37. Pang, J.M., Wang, X.M.*, Shao, M., Chen, W.H., and Chang, M. Aerosol optical depth assimilation for a modal aerosol model: Implementation and application in AOD forecasts over East Asia. Science of the Total Environment, 2020, 719, 137430.
38. Chang, M., Liao, W.H., Wang, X.M., Zhang, Q., Chen, W.H., Wu, Z.Y., Hu, Z.C. 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, 2020, 281: 107815.
39. 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., and Zhou, S.Z.*, 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.
40. 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, 201913(3), 182-187.
41. 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.
42. 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.
43. 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.
44. 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.
45. 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.
46. 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.
47. 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.
48. 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.
49. 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.
50. 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.
51. 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.
52. 颜丰华,陈伟华,常鸣,王伟文,刘永林,钟部卿,毛敬英,杨土士,王雪梅*,刘婵芳*. 珠江三角洲大气光化学氧化剂(Ox)与PM2.5复合超标污染特征及气象影响因素.环境科学,2021, 42(4): 1600-1614.
53. 胡泽超, 钟部卿, 陈伟华, 刘玉琦, 王雪梅*, 常鸣*. 陆面模式Noah-MP模拟地表热通量的物理过程不确定性分析. 环境科学学报,2020, 40(6): 2007-2018.
54. 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.
55. 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. doi:10.13671/j.hjkxxb.2018.0324.
56. 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. doi: 10.16032/j.issn.1004-4965.2017.05.021.
1.国家自然科学基金面上项目, 2024-01至2027-12,在研,主持
2.国家重点研发计划“大气与土壤、地下水污染综合治理”重点专项,2024-01至2027-12,在研,子课题负责人
3.广州市基础研究计划2024年度基础与应用基础研究专题(青年博士“启航” 方向)项目,2024-04至2026-03,在研,主持
4.暨南大学科协2023年第二层次青年科技人才托举工程项目,2023-01至2024-12,在研,主持
5.国家青年科学基金青年项目,2019-01至2022-12,结题,主持
6.中国博士后科学基金面上项目,2020-10至2021-10,结题,主持
7.广东省深圳生态环境监测中心站服务项目,2022-07至2023-07,结题,主持
8.国家自然科学基金重点项目,2023-01至2027-12在研,参与
9.国家自然科学基金面上项目,2021-01至2024-12,在研, 参与
10.国家重点研发计划政府间国际科技创新合作重点专项,2020-07至2022-6,结题, 参与
11.国家重点研发计划“大气污染成因与控制技术研究”重点专项,2017-07至2021-06,结题, 参与
大气环境与气候变化数值模拟团队