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,中山大学教育发展与校友事务办公室副主任(挂职),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30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:
2026.06-至今 中山大学教育发展与校友事务办公室副主任(挂职)
2024.04-至今 中山大学大气科学学院 副教授
2021.01-2024.03 中山大学大气科学学院 助理教授
2018.08-2020.12 香港理工大学 土木与环境工程学系 博士后
2013.08-2018.06 中山大学大气科学学院 大气物理学与大气环境 博士(保研,硕博连读)
2009.09-2013.06 中山大学环境科学与工程学院 应用气象学 学士
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 Chemistry and Physics, Environmental Science & Technology, Journal of Hazardous Materials, Science of the Total Environment, Journal of Environmental Sciences, Atmospheric Research, Atmospheric Environment, Urban Climate, Journal of Cleaner Production, Ecotoxicology and Environmental Safety, Atmospheric Pollution Research, Water, Air, & Soil Pollution
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):
2026年:
1. 熊楚琪, 黄渝瑄, 张金赛, 朱玉琦, 刘一鸣*: 秋季副热带高压影响下珠三角典型臭氧污染过程的数值模拟研究, 中国环境科学, 2026. [Link]
2. Zhu, Y.Q., Huang, Y.X., Xiong, C.Q., Liu, Y.M*, Yuan, B.*; Wang, H.C., Li, S.T., Li, X.B., Zhang, X.X., Fan, Q.: Significant contributions of sea spray aerosol to vertical ClNO2 formation over coastal South China. Journal of Environmental Sciences 2026. [Link]
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]
