师资
个人简介
李莹,南科大海洋科学与工程系副教授/研究员/博士生导师。南科大海洋大气科学中心主任。广东省气象学会大气物理和大气环境专业委员会委员、深圳市空气质量保障会商专家。主要研究领域包括大气气溶胶及其组分遥感、大气二次污染成因数值模拟和控制策略研究,以及气候变化背景下的海气相互作用研究。在Remote Sensing of Environment、Environmental Science & Technology、Environmental Pollution、Journal of Geophysical Research、Science of the Total Environment和 Atmospheric Environment 等相关国际国内权威学术期刊发表论文60余篇 (总引用数2200余次)。国家自然科学基金面上、国家自然科学基金国际(地区)合作项目,广东省科技计划等多项目负责人。
教育背景
2006/09-2011/05 香港科技大学海岸与大气研究中心, 博士
2003/09-2006/07 北京大学物理学院, 硕士
1998/09-2002/07 渤海大学, 物理系( 大三大四 2000-2002 于清华大学联读 ),学士
工作经历
2022/12-至今 南方科技大学,海洋科学与工程系,副教授
2016/12-2022/11 南方科技大学,海洋科学与工程系, 助理教授
2015/04-2016/12 香港科技大学, 霍英东研究院, 研究助理教授( Research Assistant Professor)
2011/07-2015/03 香港科技大学,环境学部,博士后
2008/09-2009/03 美国田纳西大学, 访问学者
获奖情况
1、中国环境科学学会科学技术年会(2018)光大国际优秀论文奖
2、2017年获得 深圳市海外高层次C类人才
3、ESI高被引论文二篇
科研项目
1.2023年-2026年,专2023N004 PM2.5和臭氧污染协同防治关键技术研究与应用示范(KCXFZ20230731094301004),深圳市科创委可持续发展专项,300 万元,核心成员。
2.2022年-2025年,专2022N016 用于海洋环境监测的三维一体无人飞行器研发与应用(KCXFZ20211020174803005),深圳市科创委可持续发展专项,600 万元,核心成员。
3.2021年-2025年,船舶排放大气污染物的管控关键技术研究及应用示范(2020B1111360001),广东省科技厅-广东省重点领域研发计划,500万元,核心成员。
4.2020年-2024年 海-陆大气物理化学相互作用及其对粤港澳大湾区空气质量的影响研究(2020B1515130003),广东省科技厅粤港澳研究团队,200万元,核心成员。
5.2020年-2023年,边界层垂直变化对中国南方臭氧污染事件演化影响的观测与模型研究(4191101099),国家自然科学基金国际合作与交流项目,100 万元,项目负责人。
6.2020年-2022年,南海海底灾害过程与机理研究(GML2020KG042),广东省科技厅项目,1450万元,核心成员。
7.2019年-2024年,基于大数据和AI技术的智慧城市综合环境监测与预报(KQTD20180411143441009),深圳市科创委-孔雀团队项目,6000万元,核心成员。
8.2019年-2022年,近海与河口MGII古菌的碳代谢机制及其群落互作关系的研究,国家自然科学基金-重大研究计划项目,280万万元,第三参与人。
9.2019年-2021年,深圳海洋地球古菌组学重点实验室(ZDSYS201802081843490),深圳市科创委-深圳市重点实验室,450万,核心成员。
10.2019年1月 深港两地经济发展及人类活动对海岸环境的影响和比较,教育部港澳台办公室,33.24 万元,项目负责人。
11.2017年-2020年,珠三角地区大气 PM2.5 卫星遥感应用平台开发,广东省环境科学研究院资助项目,50万元,项目负责人。
12.2017年-2018年,珠三角复合污染过程历史案例库建立与主要污染气象特征的量化分析,10万元,项目负责人。
13.2016年-2019年,基于挥发性分级方法的二次有机气溶胶源解析数值模拟研究,国家自然科学基金面上项目,76.8万元,项目负责人。
14.2016年-2016年,在轨卫星对细颗粒物探测效能分析及建议上海卫星工程研究所资助项目, 20万元,项目负责人。
15.2013.01-2016.01,Framework Agreement for Airport Air Quality Data Analysis at the HK International Airport, Airport Authority, $900.000, Co-PI.
16.2011.06-2013.04,Development of effective air quality management strategies for HK and the PRD,UGC,$1,000,000, Co-PI.
17.2009.01-2011.04,Air Quality Improvement for the 16th Asian Game and Beyond, Fu Tak Iam Foundation Ltd, $3,000,000, Co-PI.
论文及专利
1. Ahmad,Naveed;Lin Changqing;...Li Ying*.(2023).Effects of meteorological conditions on the mixing height of Nitrogen dioxide in China using new-generation geostationary satellite measurements and machine learning,Chemosphere,246. (SCI收录,IF=8.8)
2. Yuan,S.;Li, Y.*,Bao, F. (2023).Marine environmental monitoring with unmanned vehicle platforms: Present applications and future prospects,Science of The Total Environment, 858, 159741. (通讯作者,SCI收录,IF=10.753).
3. Li,Jinlan;Li, Y.*(2023).Ozone deterioration over North China plain caused by light absorption of black carbon and organic carbon,Atmospheric Environment, 313. (通讯作者,SCI收录,IF=5.0).
4. Bao, F.;Li, Y.*;Gao, J.(2023).Carbonaceous aerosols remote sensing from geostationary satellite observation, Part I: Algorithm development using critical reflectance,Remote Sensing of Environment,287,113459,(通讯作者,SCI收录,IF=13.85).
5. Gao, J., Li, Y., Xie, Z., Wang, L., Hu, B., & Bao, F. (2023). Which aerosol type dominate the impact of aerosols on ozone via changing photolysis rates? Science of The Total Environment, 854, 158580. (通讯作者,SCI收录,IF=10.753).
6. Fan, S., Li, Y*.(2023).Potential deterioration of ozone pollution in coastal areas caused by marine-emitted halogens: A case study in the Guangdong-Hong Kong-Macao Greater Bay Area, Science of The Total Environment,860,(通讯作者,SCI收录,IF=10.753).
7. Changqing Lin, Yushan Song, Peter K.K. Louie, Zibing Yuan, Ying Li, et al., Risk tradeoffs between nitrogen dioxide and ozone pollution during the COVID-19 lockdowns in the Greater Bay area of China, Atmos. Pollu. Res., 2022, 13 (10).(SCI收录,IF=4.831).
8. Xing, CB;Wang,YX;... Li,Y;(2022) Seasonal variation of driving factors of ambient PM2.5 oxidative potential in Shenzhen, China,Science of The Total Environment, 862, 160771. (SCI收录,IF=10.753).
9. Weilun Zhao, Gang Zhao, Ying Li, et al.(2022) New method to determine black carbon mass size distribution, Atmospheric Measurement Techniques,15(22),6807-6817,(通讯作者,SCI收录,IF=3.8).
10. Gao, J., Li, Y.*, Xie, Z., Hu, B., Wang, L., Bao, F., Fan, S. (2022). The Impact of the Aerosol Reduction on the Worsening Ozone Pollution over the Beijing-Tianjin-Hebei Region via Influencing Photolysis Rates. The Science of the total environment., 821, 153197. (通讯作者, SCI收录, IF=10.753).
11. Li, Y*., Zhao, X., Deng, X., Gao, J. (2022). The Impact of Peripheral Circulation Characteristics of Typhoon on Sustained Ozone Episodes over the Pearl River Delta Region, China. Atmospheric Chemistry and Physics, 22 (6)., 3861–3873. (第一作者,SCI收录,IF=7.197).
12. Fan S.D. and Li Y.* (2022)., The impacts of marine-emitted halogens on OH radicals in East Asia during summer, Atmospheric Chemistry and Physics,7331–7351. (通讯作者, SCI收录, IF=7.197).
13. Yuan, S.; Li Y* (2022).; Jinhui Gao and Fangwen Bao. A New Coupling Method for PM2.5 Estimation Based on Aerosol Remote Sensing and Numerical Model. Remote Sensing., 14(10)., 2360. (通讯作者,SCI收录,IF=5.349).
14. Jilong Chen,Chi Yung Tam,Ziqian Wang,Kevin Cheung,Ying Li,Ngar-Cheung Lau,Dick-Shum Dickson Lau. (2022)., Future Thermodynamic Impacts of Global Warming on Landfalling Typhoons and Their Induced Storm Surges to the Pearl River Delta Region as Inferred from High-Resolution Regional Models. Journal of Climate, 35(15).,4905-4926. (SCI收录, IF=5.38).
15. Yuan, S.; Bao, F.; Zhang, X.; Li, Y*.(2022)., Severe Biomass-Burning Aerosol Pollution during the 2019 Amazon Wildfire and Its Direct Radiative-Forcing Impact: A Space Perspective from MODIS Retrievals. Remote Sensing. 14, 2080. (通讯作者, SCI收录, IF=5.349).
16. Fan, S., Li, Y*., & Liu, C. (2021). Are Environmentally Friendly Fireworks Really “Green” for Air Quality? A Study from the 2019 National Day Fireworks Display in Shenzhen. Environmental Science & Technology, 55(6)., 3520-3529. (通讯作者, SCI收录, IF=11.357).
17. Yu, Z., & Li, Y*. (2021).. Marine volatile organic compounds and their impacts on marine aerosol—A review. Science of The Total Environment, 768, 145054. (通讯作者,SCI收录,IF=10.753).
18. Lin, C., Lau, A. K. H., Fung, J. C. H., Song, Y., Li, Y*., Tao, M., Lu, X., Ma, J., Lao, X. Q. (2021). Removing the Effects of Meteorological Factors on Changes in Nitrogen Dioxide and Ozone Concentrations in China from 2013 to 2020. Science of The Total Environment,793, 148575. (SCI收录, IF=10.753).
19. Ying Li*, Shuyun Yuan, Shidong Fan, Yushan Song, Zihao Wang, Zujun Yu, Qinghua, Yu, Yiwen Liu (2021)., Satellite remote sensing for estimating PM2.5 and its components, Current Pollution Reports, 1-16. (第一作者, 通讯作者, SCI收录, IF=8.097).
20. Li, Y., Xu, H. X., Tang, K. Y., Lau, A. K. H., Fung, J. C. H., & Zhang, X. G. (2021). An ensemble assessment of the effectiveness of vehicular emission control programs for air quality improvement in Hong Kong. Atmospheric Environment, 262, 118571. (第一作者,EI收录,IF=5.755).
21. Song, Y., Lin, C., Li, Y*., Lau, A. K., Fung, J. C., Lu, X., ... & Lao, X. Q. (2021). An improved decomposition method to differentiate meteorological and anthropogenic effects on air pollution: A national study in China during the COVID-19 lockdown period. Atmospheric Environment, 250, 118270. (通讯作者,SCI收录,5.755).
22. Bao, F., Cheng, T., Li, Y*., Shi, S., Guo, H., Wu, Y. (2021). Single Scattering Albedo of High Loading Aerosol Estimated Across East Asia From S-NPP VIIRS. IEEE Transactions on Geoscience and Remote Sensing,60, 1–11. (SCI收录, IF=8.125).
23. Zhao, K., Huang, J., Wu, Y., Yuan, Z., Wang, Y., Li, Y*., Ma, X., Liu, X., Ma, W., Wang, Y., Zhang, X.(2021). Impact of Stratospheric Intrusions on Ozone Enhancement in the Lower Troposphere and Implication to Air Quality in Hong Kong and Other South China Regions. Journal Of Geophysical Research-Atmospheres.126 (18)., e2020JD033955. (SCI收录, IF=5.217).
24. Li, Y.*, Xu, H. (2021). Assessment of Reductions in Emission-Driven Air Pollution during the Beijing Olympic Games, Shanghai World Expo, Guangzhou Asian Games and Wuhan COVID-19 Lockdown. Aerosol And Air Quality Research. 21, 200644. (第一作者,SCI收录, IF=4.53).
25. Lin, C., Leung, K. K. M., Yu, A. L. C., Tsang, R. C. W., Tsui, W. B. C., Fung, J. C. H., Ng, E. K. W., Cheung, S. L., Tang, A. W. Y., Ning, Z., Li, Y*., Zhang, T., Lau, A. K. H. (2021). Effects of Synoptic Patterns on the Vertical Structure of Ozone in Hong Kong Using Lidar Measurement. Atmospheric Environment. 257, 118490. (SCI收录, IF=5.755).
26. Song, Y., Li, Y*., Xu, H., Lin, C., & Lau, A. K. (2021).. A Multi‐Dimensional Decomposition Method of the Meteorology‐Driven and Emission‐Driven Effects on Year‐to‐Year Air Quality Variations. Earth and Space Science, 8(6)., e2020EA001424. (通讯作者,SCI收录, IF=3.68).
27. Bao, F., Li, Y*., Cheng, T., Gao, J., & Yuan, S. (2020).. Estimating the columnar concentrations of black carbon aerosols in China using MODIS products. Environmental Science & Technology, 54(18)., 11025-11036. (通讯作者, SCI收录, IF=11.357).
28. WenweiChe, H. ... YingLi, ZibingYuan, Alexis K.H.Lau (2020)., PRAISE-HK: A personalized real-time air quality informatics system for citizen participation in exposure and health risk management, Sustainable Cities and Society, 54, 101986. (SCI收录, IF=10.696).
29. Gao, J., Li, Y*., Zhu, B., Hu, B., Wang, L., & Bao, F. (2020).. What have we missed when studying the impact of aerosols on surface ozone via changing photolysis rates?. Atmospheric Chemistry and Physics, 20(18)., 10831-10844. (通讯作者, SCI收录, IF=7.197).
30. Yao, T., Li, Y*., Gao, J., Fung, J. C., Wang, S., Li, Y., ... & Lau, A. K. (2020).. Source apportionment of secondary organic aerosols in the Pearl River Delta region: Contribution from the oxidation of semi-volatile and intermediate volatility primary organic aerosols. Atmospheric Environment, 222, 117111.(通讯作者,SCI收录,IF=5.755).
31. 赵向军,丁治英,李莹*,高松 (2020)., 一种新的重直速度计算方法, 气象科学, 209-219.
32. Liu, B., He, M. M., Wu, C., Li, J., Li, Y., Lau, N. T., ... & Li, Y*. J. (2019).. Potential exposure to fine particulate matter (PM2. 5). and black carbon on jogging trails in Macau. Atmospheric Environment, 198, 23-33. (通讯作者,SCI收录,IF=5.755).
33. Bao, F., Cheng, T., Li, Y., Gu, X., Guo, H., Wu, Y., ... & Gao, J. (2019).. Retrieval of black carbon aerosol surface concentration using satellite remote sensing observations. Remote Sensing of Environment, 226, 93-108.(通讯作者,SCI收录,IF=13.85).
34. Lin, C., Lau, A. K., Fung, J. C., Lao, X. Q., Li, Y*., & Li, C. (2019).. Assessing the effect of the long-term variations in aerosol characteristics on satellite remote sensing of PM2. 5 using an observation-based model. Environmental science & technology, 53(6)., 2990-3000.(SCI收录,IF=11.357).
35. Li T., X. Deng*, Li*, Y. Song; L. Li, H. Tan, C. Wang (2018)., Transport paths and vertical exchange characteristics of haze pollution in Southern China, Science of the Total Environment, 625 :1074-1087. (通讯作者, SCI收录, IF= 10.753).
36. Q. Lin, G. Liu, A.K.H. Lau, Y. Li,C.C. Li, J.C.H. Fung, X.Q. Lao, (2018b)., High-resolution satellite remote sensing of provincial PM2.5 trends in China from 2001 to 2015. Atmospheric Environment, 180, 110-11. ( SCI收录, IF= 5.755).
37. Lin, C., Li, Y*., Lau, A. K., Li, C., & Fung, J. C. (2018).. 15-year PM2. 5 trends in the Pearl River Delta region and Hong Kong from satellite observation. Aerosol and Air Quality Research, 18(9)., 2355-2362.(SCI收录,IF=4.53).
38. Changqing Lin, Alexis K. H. Lau, Ying Li, Jimmy C. H. Fung, Chengcai Li , Xingcheng Lu , Zhiyuan Li (2018c)., Difference in PM2.5 Variations between Urban and Rural Areas over Eastern China from 2001 to 2015, Atmosphere, 9(8)., 312. ( SCI收录, IF=3.11).
39. Wong, N. S., Leung, C. C., Li, Y., Poon, C. M., Yao, S., Wong, E. L., ... & Lee, S. S. (2017).. PM2· 5 concentration and elderly tuberculosis: analysis of spatial and temporal associations. The Lancet, 390, S68.(SCI收录,IF=202.731).
40. Lu, X., Lin, C., Li, Y., Yao, T., Fung, J. C., & Lau, A. K. (2017).. Assessment of health burden caused by particulate matter in southern China using high-resolution satellite observation. Environment international, 98, 160-170.(SCI收录,IF=13.352).
41. Wang, N., Lyu, X. P., Deng, X. J., Guo, H., Deng, T., Li, Y., ... & Wang, S. Q. (2016).. Assessment of regional air quality resulting from emission control in the Pearl River Delta region, southern China. Science of the total environment, 573, 1554-1565.(SCI收录,IF=10.753).
42. Lin, C, Li*, A. K. H. Lau, X. Deng, Tim K.T. Tse, J. C. H. Fung., C. Li, Z. Li, X. Lu,X. Zhang and Q. Yu (2016)., Estimation of Long-Term Population Exposure to PM2.5 for Dense Urban Areas using 1-km MODIS Data, Remote Sensing of Environment, 179,13-22. (通讯作者, SCI收录, IF=13.85).
43. Lu, X., Yao, T., Li, Y*., Fung, J. C., & Lau, A. K. (2016)., Source apportionment and health effect of NOx over the Pearl River Delta region in southern China, Environmental Pollution, 212, 135-146. (通讯作者, SCI收录, IF=9.988).
44. Liu H., C. Liu, Z. Xie, Li, X. Huang, S. Wang, J. Xu, and P. Xie (2016)., A paradox for air pollution controlling in China revealed by “APEC Blue” and “Parade Blue”. Scientific reports, 6(1)., 1-13. (SCI收录, IF=4.996).
45. Lin, C. Q., Li, C. C., Lau, A. K. H., Yuan, Z. B., Lu, X. C., Tse, K. T., ... & Zhang, Y. Q. (2016).. Assessment of satellite-based aerosol optical depth using continuous lidar observation. Atmospheric environment, 140, 273-282.(SCI收录,IF=5.755).
46. Karimian, H., Li, Q., Li, C., Jin, L., Fan, J., & Li, Y. (2016).. An improved method for monitoring fine particulate matter mass concentrations via satellite remote sensing. Aerosol and Air Quality Research, 16(4)., 1081-1092.(SCI收录,IF=4.53).
47. Li, Y., C. Lin, A. K. H. Lau, C. Liao, Y. Zhang, W. Zeng, C. Li, J. C. H. Fung, and T. K. T. Tse (2015)., Assessing Long-Term Trend of Particulate Matter Pollution in the Pearl River Delta Region Using Satellite Remote Sensing, Environmental Science & Technology, 49(19)., 11670–11678. (第一作者, SCI收录, IF=11.357).
48. Lin, C., Li*, Z. Yuan, A. K. H. Lau, C. Li, and J. C. H. Fung (2015)., Using satellite remote sensing data to estimate the high-resolution distribution of ground-level PM2.5, Remote Sensing of Environment, 156, 117–128. (通讯作者, SCI收录, IF=13.85).
49. Li, Z., Z. Yuan, Y. Li, A. K. Lau, P. K. Louie, (2015).. Characterization and source apportionment of health risks from ambient PM10 in Hong Kong over 2000-2011, Atmospheric Environment, 122, 892–899.(SCI收录, IF= 5.755).
50. Li, Y., A. Lau, A. Wong, and J. Fung (2014)., Decomposition of the Wind and Nonwind Effects on Observed Year-to-year Air Quality Variation, J. Geophys. Res. Atmos., 119, 6207–6220. (第一作者, SCI收录, IF= 5.217).
51. Yu, X., Z. Yuan, J. Fung, J. Xue, Y. Li, J. Zheng, A. Lau (2014)., Ozone changes in response to the heavy-duty diesel truck control in the Pearl River Delta, Atmospheric Environment, 88, 269–274. ( SCI收录, IF= 5.755).
52. 李成才, 周寅亮, 李莹, 刘启汉, 贺千山, 杨复沫 (2014)., 利用卫星遥感大气气溶胶进行待建环境监测站点位评估, 北京大学学报(自然科学版)., doi:10.13209/j.0479-8023.2014.089.
53. Yang, D. W., C. Li, A. K.-H. Lau, and Y. Li (2013)., Long-term measurement of daytime atmospheric mixing layer height over Hong Kong, J. Geophys. Res. Atmos., 118, 2422–2433. (SCI收录, IF= 5.217).
54. 李倩, 李成才, 杨东伟, 石光明, 高玲, 李莹, & 毛节泰. (2013).. MODIS 卫星监测中国东部地区地面颗粒物的样本时间代表性分析. 北京大学学报: 自然科学版, (4)., 662-672.
55. Ng, S. K. W., C. Loh, C. Lin, V. Booth, J. W. M. Chan, A. C. K. Yip, Y. Li, A. K. H. Lau (2013)., Policy change driven by an AIS-assisted marine emission inventory in Hong Kong and the Pearl River Delta, Atmospheric Environmen, 76, 102–112. ( SCI收录, IF= 5.755).
56. Li, Y., A. K. H. Lau, J. C. H. Fung, H. Ma, Y. Tse (2013b)., Systematic evaluation of ozone control policies using an Ozone Source Apportionment method, Atmospheric Environment, 76, 136–146. ( 第一作者, SCI收录, IF= 5.755).
57. Li, Y., A. K. H. Lau, J. C. H. Fung, J. Zheng, and S. Liu (2013a)., Importance of NOx control for peak ozone reduction in the Pearl River Delta region, J. Geophys. Res. Atmos., 118, 9428–9443. (第一作者, SCI收录, IF= 5.217).
58. LI Cheng-Cai, HE Xiu, DENG Zhao-Ze, Alexis Kai-Hon LAU, LI Ying (2013)., Dependence of Mixed Aerosol Light Scattering Extinction on Relative Humidity in Beijing and Hong Kong, Atmospheric Ocean. Sci. Lett., 6, 117–121.
59. Li, Q., Li, C. C., Yang, D. W., Shi, G. M., Gao, L., Li, Y., & Mao, J. T. (2013).. An evaluation of the temporal representative of MODIS application for particulate matter assessment over eastern China. Acta Sci Nat Univ Pekin, 49(4)., 662-672.
60. 李倩; 李成才; 王烨芳; 林常青; 杨东伟; 李莹 (2013)., 利用激光雷达和卫星遥感获得城市地面大气悬浮颗粒物浓度分布. 北京大学学报(自然科学版)., 49, 673–682.
61. Li, Y., A. K.-H. Lau, J. C.-H. Fung, J. Y. Zheng, L. J. Zhong, and P. K. K. Louie (2012)., Ozone source apportionment (OSAT). to differentiate local regional and super-regional source contributions in the Pearl River Delta region, China, J. Geophys. Res. Atmos., 117 (D15).. (第一作者,SCI收录, IF= 5.217).
62. 李莹, 赵春生, 方圆圆, and 余环 (2007)., 利用卫星资料分析对流层臭氧柱总量分布特征及其可能的原因, 应用气象学报, 18(2)., 181–186.
63. Zhao, C., X. Dabu, and Y. Li (2004)., Relationship between climatic factors and dust storm frequency in Inner Mongolia of China, Geophysical Research Letters, 31 (1).. (SCI收录, IF= 5.576).