刘一鸣 博士,副教授,博士生导师
基本情况:
刘一鸣,男。大气物理与化学系副教授,博士生导师,中山大学“百人计划”引进青年优秀人才。主要研究方向为区域大气环境数值模拟、大气氧化性机理研究、高分辨率大气排放源清单开发优化。在Geophysical Research Letters、Atmospheric Chemistry and Physics、Atmospheric Environment等国际知名期刊发表第一/通讯作者论文28篇,发表论文总引用3000余次。担任多个SCI学术期刊的专刊编辑和审稿人。
[Google Scholar] [ReseachGate]
联系方式:
邮箱:liuym88@mail.sysu.edu.cn
地址:广东省珠海市香洲区唐家湾镇中山大学珠海校区海琴2号楼A269
教育工作经历:
2024.04-至今 副教授 中山大学大气科学学院
2021.01-2024.03 助理教授 中山大学大气科学学院
2018.08-2020.12 博士后 香港理工大学 土木与环境工程学系 (导师:王韬)
2013.08-2018.06 博士 中山大学大气科学学院 大气物理学与大气环境(保研,硕博连读) (导师:黎伟标,樊琦)
2009.09-2013.06 学士 中山大学环境科学与工程学院 应用气象学
研究方向:
区域大气环境数值模拟、大气氧化性机理研究、高分辨率大气排放源清单开发优化
讲授课程:
空气污染预报方法(本科,专业必修)
环境气象学(本科,专业必修)
应用气象生产实习(本科,专业必修)
学术兼职:
担任国际知名学术期刊审稿人:Atmospheric Environment, Journal of Environmental Sciences, Atmospheric Chemistry and Physics, Environmental Science & Technology, Science of the Total Environment, Urban Climate, Journal of Cleaner Production, Atmospheric Research
科研项目:
1. 广东省基础与应用基础研究基金气象联合基金项目,2025-2028,主持,在研。
2. 国家重点研发计划项目,2023-2026,骨干,在研。
3. 国家自然科学基金青年科学基金项目,2022-2024, 主持,已结题。
4. 广东省自然科学基金面上项目,2023-2025,主持,已结题。
5. 中山大学高校基本科研业务费青年教师团队项目课题,2022-2022,主持,已结题。
获奖情况:
1. 广东省气象学会气象科学创新奖一等奖(排名第2),2024
2. 大气科学学院优秀教师,2024
3. "我心中的的魅力教师",2023,2024,2025
4. 中山大学优秀班主任,2023
5. 广东省优秀学生(研究生阶段),2018
6. 中山大学硕士研究生国家奖学金,2014
发表论文(*为通讯作者,#为共同一作):
2025年:
1. Hong, Y.Y., Zhu, Y.Q., Huang, Y.X., Liu, Y.M.*, Xiong, C.Q., and Fan, Q.*: The impact of sea spray aerosol on photochemical ozone formation over eastern China: heterogeneous reaction of chlorine particles and radiative effect, Atmospheric Chemistry and Physics, 2025, 25, 11847-11866. [Link].
2. Lu, X.#*, Liu, Y.M.#, Su, J.Y.#, Weng, X.#, Ansari, T.#, Zhang, Y.Q.#, He, G.W., Zhu, Y.Q., Wang, H.L., Zeng, G.Q., Li, J.Y., He, C., Li, S., Amnuaylojaroen, T., Butler, T., Fan, Q., Fan, S.J., Forster, G. L., Gao, M., Hu, J.L., Kanaya, Y., Latif, M. T., Lu, K.D., Nédélec, P., Nowack, P., Sauvage, B., Xu, X.B., Zhang, L., Li, K., Koo, J. H., and Nagashima, T.: Tropospheric ozone trends and attributions over East and Southeast Asia in 1995–2019: an integrated assessment using statistical methods, machine learning models, and multiple chemical transport models, Atmospheric Chemistry and Physics, 2025, 25, 7991-8028. [Link]
3. Wang, H.F., Li, Y.J., Liu, Y.M.*, Lu, X., Zhang, Y., Fan, Q.*, Shen, C., Lai, S.C., Zhou, Y., Zhang, T., and Yue, D.L.: Underappreciated contributions of biogenic volatile organic compounds from urban green spaces to ozone pollution, Atmospheric Chemistry and Physics, 2025, 25, 5233-5250. [Link]
4. Huang, Y.X., Li, S., Zhu, Y.Q., Liu, Y.M.*, Hong, Y.Y., Chen, X.Y., Deng, W.J., Xi, X.Y., Lu, X., and Fan, Q.*: Increasing sea-land breeze frequencies over coastal areas of China in the past five decades, Geophysical Research Letters, 2025, 52, e2024GL112480. [Link]
5. Chen, G.#, Liu, Y.M.#, Wang, H.F., Wang, M.H., Chen, L., Hu, H.J., Zhang, S.Y., Ai, B.Z., Cai, M., Zhang, Z.L., Fan, Q.*, and Lin, H.L.*: Lifetime exposure to health-related air pollutants in the United Kingdom: A spatiotemporal evaluation (1930–2010) through WRF-CMAQ modeling. Atmospheric Environment, 2025, 346, 121093. [Link]
2024年:
1. Li, S.T., Liu, Y.M.*, Zhu, Y.Q., Jin, Y.B., Hong, Y.Y., Shen, A., Xu, Y.F., Wang, H.F., Wang, H.C., Lu, X., Fan, S.J., and Fan, Q.* ACEIC: a comprehensive anthropogenic chlorine emission inventory for China. Atmospheric Chemistry and Physics, 2024, 24, 11521-11544. [Link]
2. Wang, H.F., Qiu, J.X., Liu, Y.M.*, Fan, Q., Lu, X., Zhang, Y., Wu, K., Shen, A., Xu, Y.F., Jin, Y.B., Zhu, Y.Q., Sun, J.Y., and Wang, H.L. MEIAT-CMAQ: A modular emission inventory allocation tool for Community Multiscale Air Quality Model. Atmospheric Environment, 2024, 331, 120604. [Link]
3. Jin, Y.B., Liu, Y.M.*, Lu, X., Chen, X.Y., Shen, A., Wang, H.F., Cui, Y.P., Xu, Y.F., Li, S.T., Liu, J., Zhang, M., Ma, Y.Y., and Fan, Q.* Measurement report: Assessing the impacts of emission uncertainty on aerosol optical properties and radiative forcing from biomass burning in peninsular Southeast Asia. Atmospheric Chemistry and Physics, 2024, 24, 367-395. [Link]
4. Zhu, Y.Q., Liu, Y.M.*, Li, S.T., Wang, H.L., Lu, X., Wang, H.C., Shen, C., Chen, X.Y., Chan, P.W., Shen, A., Wang, H.F., Jin, Y.B., Xu, Y.F., Fan, S.J., and Fan, Q.* Assessment of tropospheric ozone simulations in a regional chemical transport model using GEOS-Chem outputs as chemical boundary conditions. Science of the Total Environment, 2024, 906, 167485. [Link]
2023年:
1. Shen, A., Liu, Y.M.*, Lu, X., Xu, Y.F., Jin, Y.B., Wang, H.F., Zhang, J., Wang, X.M., Chang, M., and Fan, Q.* Modeling regional nitrogen cycle in the atmosphere: Present situation and its response to the future emissions control strategy. Science of The Total Environment, 2023, 891, 164379. [Link]
2. Liu, Y.M., Shen, C.*, Chen, X.Y., Hong, Y.Y., Fan, Q., Chan, P.W., Wang, C.L., and Lan, J. Satellite-Based Estimation of Roughness Length over Vegetated Surfaces and Its Utilization in WRF Simulations. Remote Sensing, 2023, 15, 2686. [Link]
3. Xu, Y.F., Shen, A., Jin, Y.B., Liu, Y.M.*, Lu, X., Fan, S.J., Hong, Y.Y., and Fan, Q. A quantitative assessment and process analysis of the contribution from meteorological conditions in an O3 pollution episode in Guangzhou, China, Atmospheric Environment, 2023, 303, 119757. [Link]
4. Shen, C., Liu, Y.M.*, Dai, W., Chen, X.Y., Fan, Q.*, Wang, X.M., Chan, P.W., Wang, C.L., Pan, W.J., Li, J.Y., Li, X.H., and Wu, J. The Influence of Refined Urban Morphological Parameters on Dynamical and Thermal Fields in a Single-Layer Urban Canopy Model. Atmosphere, 2023, 14, 719. [Link]
5. Shen, C.#, Liu, Y.M.#, Shen, A., Cui, Y.P., Chen, X.Y.*, Fan, Q., Chan, P.W., Tian, C.Y., Xie, Z.Z., Wang, C.L., Lan, J., Li, X.H., Wu, J., and Yang, Y.H. Spatializing the roughness length of heterogeneous urban surfaces to improve the WRF simulation-Part 2: Impacts on the thermodynamic environment. Atmospheric Environment, 2023, 294, 119464. [Link]
6. 刘一鸣, 郑浩阳*, 陈阁香, 滕超, 林泽健. 华南沿海地区夏初PM2.5水溶性离子特征及来源解析. 环境科学学报, 2023, 43(1): 237-246. [Link]
2022年:
1. 刘一鸣*, 周慧娴, 李思婷, 沈傲, 樊琦. 不同季节人为氯排放对二次气溶胶影响的数值模拟. 中国环境科学, 2022, 42(9): 4059-4072. [Link]
2. Shen, A., Liu, Y.M.*, Lu, X., Wang, X.M., Chang, M., Zhang, J., Tian, C.Y., Fan, Q.*. Sulfur deposition in the Beijing-Tianjin-Hebei region, China: Spatiotemporal characterization and regional source attributions. Atmospheric Environment, 2022, 286: 119225. [Link]
3. Shen, C., Shen, A., Cui, Y.P., Chen, X.Y., Liu, Y.M.*, Fan, Q.*, Chan, P.W., Tian, C.Y., Wang, C.L., Lan, J., Gao, M.T., Li, X.H., Wu, J. Spatializing the roughness length of heterogeneous urban underlying surfaces to improve the WRF simulation-part 1: A review of morphological methods and model evaluation. Atmospheric Environment, 2022, 270: 118874. [Link]
2021年:
1. Liu, Y.M.*, Wang, T.*, Stavrakou, T., Elguindi, N., Doumbia, T., Granier, C., Bouarar, I., Gaubert, B., and Brasseur, G. P. Diverse response of surface ozone to COVID-19 lockdown in China. Science of the Total Environment, 2021, 789: 147739. [Link]
2020年:
1. Liu, Y.M., Wang, T.* Worsening urban ozone pollution in China from 2013 to 2017 — Part 1: The complex and varying roles of meteorology. Atmospheric Chemistry and Physics, 2020, 20: 6305–6321. [Link]
2. Liu, Y.M., Wang, T.* Worsening urban ozone pollution in China from 2013 to 2017 — Part 2: The effects of emission changes and implications for multi-pollutant control. Atmospheric Chemistry and Physics, 2020, 20: 6323–6337. [Link]
3. Hong, Y.Y., Liu, Y.M.*, Chen, X.Y., Fan, Q.*, Chen, C., Chen, X.L., Wang, M.J. The role of anthropogenic chlorine emission in surface ozone formation during different seasons over eastern China. Science of the Total Environment, 2020, 723: 137697. [Link]
4. Yang, X.Y., Wu, K., Wang, H.L., Liu, Y.M.*, Gu, S., Lu, Y.Q., Zhang, X.L., Hu, Y.S., Ou, Y.H., Wang, S.G., Wang, Z.S.* Summertime ozone pollution in Sichuan Basin, China: meteorological conditions, sources and process analysis. Atmospheric Environment, 2020, 226: 117392. [Link]
2019年前:
1. Liu, Y.M., Fan, Q.*, Chen, X.Y., Zhao, J.*, Ling, Z.H., Hong, Y.Y., Li, W.B., Chen, X.L., Wang, M.J., Wei, X.L. Modeling the impact of chlorine emissions from coal combustion and prescribed waste incineration on tropospheric ozone formation in China. Atmospheric Chemistry and Physics, 2018, 18(4): 2709-2724. [Link]
2. Liu, Y.M., Hong, Y.Y., Fan, Q.*, Wang, X.M., Chan, P.W., Chen, X.Y., Lai, A.Q, Wang, M.J., Chen, X.L. Source-receptor relationships for PM2.5 during typical pollution episodes in the Pearl River Delta city cluster, China. Science of the Total Environment, 2017, 15(596-597): 194-206. [Link]
3. Liu, Y.M., Zhang, S.T., Fan, Q.*, Wu, D., Chan, P.W., Wang, X.M., Fan, S.J., Feng, Y.R., Hong, Y.Y. Accessing the impact of sea-salt emissions on aerosol chemical formation and deposition over Pearl River Delta, China. Aerosol and Air Quality Research, 2015, 15(6): 2232-2245. [Link]
4. 刘一鸣, 洪莹莹, 张舒婷, 王雪梅, 范绍佳, 冯业荣, 樊琦*. 珠江三角洲秋季典型气溶胶污染的过程分析. 中国环境科学, 2014, 34(12): 3017-3025. [Link]
5. Fan, Q., Liu, Y.M.*, Wang, X.M., Fan, S.J., Chan, P.W., Lan, J., Feng, Y.R. Effect of different meteorological fields on the regional air quality modelling over Pearl River Delta, China. International Journal of Environment and Pollution, 2013, 53(1/2): 3-23. [Link]
