姓名:李国辉
职务:
职称:研究员
学历:博士研究生
电话:029-62336278
电子邮箱:ligh@ieecas.cn
简历:
李国辉,男,博士,二级研究员,中科院“百人计划”入选者。2008年8月获得美国德州农工大学(Texas A&M University)大气科学系博士学位。随后在美国麻省理工学院做Molina Fellow、Molina 能源与环境中心(Molina Center for Energy and the Environment,该中心由1995 年诺贝尔化学奖获得者Molina创建)任Research Scientist。2012年9月任地球环境所研究员。目前主要从事大气污染数值模拟、云与气溶胶相互作用和气溶胶气候效应方面的研究,在相关领域取得了一系列重要的研究成果,发表 SCI 论文 100 余篇,以第一及通讯作者在 PNAS、 GRL、 ACP、 JGR 等国际高影响力期刊发表论文50余篇,H-index 为 45,被引 7500 余次。完善优化了 WRF-Chem 模式已成功模拟我国华北平原、京津冀、关中盆地等地区的大气污染过程,从气象条件、污染源排放、大气化学和物理过程等角度深入分析了我国雾霾和臭氧污染特征,研究成果得到了国内外同行的广泛关注和认可,为我国大气污染防治提供了科学支撑。主持及参与总理基金“大气重污染成因与治理攻关项目”、国家自然科学基金、国家重点研发计划、中科院重点部署项目和先导专项(B类)等多项国家和省部级科研项目。培养了 10 余名硕/博士研究生,均已成为所在单位的科研骨干。
发表论文:
1) Lin, Y., Han, Y., Li, G., Wang, Q., Zhang, X., Li, Z., Li, L., Prévôt, A. S. H., &Cao, J.: Molecular Characteristics of Atmospheric Organosulfates During Summer and Winter Seasons in Two Cities of Southern and Northern China. Journal of Geophysical Research: Atmospheres, 127(23), e2022J-e36672J, 2022.
2) Wang, R., Bei, N., Pan, Y., Wu, J., Liu, S., Li, X., Yu, J., Jiang, Q., Tie, X., &Li, G*.: Urgency of controlling agricultural nitrogen sources to alleviate summertime air pollution in the North China Plain. Chemosphere, 311(137124), 2023.
3) Wang, R., Bei, N., Hu, B., Wu, J., Liu, S., Li, X., Jiang, Q., Tie, X., & Li, G*.: The relationship between the intensified heat waves and deteriorated summertime ozone pollution in the Beijing–Tianjin–Hebei region, China, during 2013–2017. Environmental Pollution, 314(120256), 2022.
4) Wu, J., Bei, N., Liu, W., Xing, M., Liu, S., Song, T., Li, X., Wang, R., Jiang, Q., Bo, H., Tie, X., Cao, J., & Li, G*.: Why is the air humid during wintertime heavy haze days in Beijing? Science of The Total Environment, 853(158597), 2022.
5) Yu, J., Zhou, W., Wu, J., Li, X., Liu, S., Wang, R., Liu, L., Jiang, Q., Tie, X., &Li, G*.: Impacts of Changes in Land Use and Land Cover Between 2001 and 2018 on Summertime O3 Formation in North China Plain and Surrounding Areas–A Case Study. Journal of Geophysical Research: Atmospheres, 127(13), e2021J-e35956J, 2022.
6) Wu, F., Hu, T., Cao, J., Guo, X., Li, G., Zhang, T., Yang, Y., Zhao, C., and Zhang, D.: Active nitrogen cycle driven by solar radiation in clean desert air, Earth's Future, 10(4), e2021EF002451, 2022.
7) Li, X., Bei, N., Wu, J., Liu, S., Wang, Q., Tian, J., Liu, L., Wang, R., G. Li*: The heavy particulate matter pollution during the COVID-19 lockdown periodin the Guanzhong Basin, China, Journal of Geophysical Research: Atmospheres, e2021JD036191, 2022.
8) Wu, J., Bei, N., Li, X., Wang, R., Liu, S., Jiang, Q., Tie, X., G. Li*: Impacts of transboundary transport on coastal air quality of south China, Journal of Geophysical Research: Atmospheres, 127, e2021JD036213, 2022.
9) Li, X., Bei, N., Wu, J., Wang, R., Liu, S., Liu, L., Jiang, Q., Tie, X., L.T. Molina, G. Li*: Heterogeneous HONO formation deteriorates the wintertime particulate pollution in the Guanzhong Basin, China, Environmental Pollution, 303, 119157, 2022.
10) Wang, R., Bei, N., Tie, X., Wu, J., Li, X., Liu, S., Yu, j., Jiang, q., G. Li*: Effects of hydroperoxy radical heterogeneous loss on the summertime ozone formation in the North China Plain, Science of The Total Environment, 825,153993, 2022.
11) Wang, R., Bei, N., Wu, J., Li, X., Liu, S., Yu, J., Jiang, Q., Tie, X., G. Li*: Cropland nitrogen dioxide emissions and effects on the ozone pollution in the north China plain, Environmental Pollution, 294, 118617, 2022.
12) Wang, Y., Li, X., Wang, Q., Zhou, B., Liu, S., Tian, J., Hao, Q., G. Li., Han, Y., Hang Ho, S. S., and Cao, J.: Response of aerosol composition to the clean air actions in Baoji city of Fen-Wei River Basin, Environmental Research, 210, 112936, 2022.
13) Liu, J., Li, X., Liu, S., Liu, L., Wu, J., Wang, R., Cao, J.*, and G. Li*: Assessment of the emission mitigation effect on the wintertime air quality in the Guanzhong Basin, China from 2013 to 2017, Atmospheric Pollution Research, 12, 101196, 2021.
14) Xing, L., Bei, N., Guo, J., Wang, Q., Liu, S., Han, Y., Pongpiachan S., G. Li*: Impacts of biomass burning in peninsular Southeast Asia on PM2.5 concentration and ozone formation in southern China during springtime—A case study, Journal of Geophysical Research: Atmospheres, 126(22), e2021JD034908, 2021.
15) Li, X., Bei, N., Tie, X., Wu, J., Liu, S., Wang, Q., Liu L., Wang R., G. Li*: Local and transboundary transport contributions to the wintertime particulate pollution in the Guanzhong Basin (GZB), China: A case study, Science of The Total Environment, 797, 148876, 2021.
16) Feng, T., Zhao, S., Bei, N., Liu, S., G. Li*: Increasing atmospheric oxidizing capacity weakens emission mitigation effort in Beijing during autumn haze events, Chemosphere, 281, 130855, 2021.
17) Feng, T., Zhao, S., Hu, B., Bei, N., Zhang, X., Wu, J., Li X., Liu L., Tie X., G. Li*: Assessment of atmospheric oxidizing capacity over the Beijing-Tianjin-Hebei (BTH) area, China, Journal of Geophysical Research: Atmospheres, 126(7), e2020JD033834, 2021.
18) Bei, N., Li, X., Wang, Q., Liu, S., Wu, J., Liang, J., Liu L., Wang R., G. Li*: Impacts of aerosol-radiation interactions on the wintertime particulate pollution under different synoptic patterns in the Guanzhong Basin, China, Advances in Atmospheric Sciences, 38(7), 1141-1152, 2021.
19) Li, X., Bei, N., Hu, B., Wu, J., Pan, Y., Wen, T., Liu Z., Liu L., Wang R., G. Li*: Mitigating NOx emissions does not help alleviate wintertime particulate pollution in Beijing-Tianjin-Hebei, China, Environmental Pollution, 279, 116931, 2021.
20) Wu, J., Bei, N., Wang, Y., Li, X., Liu, S., Liu, L., Wang R., Yu J., Le T., Zuo M., Shen Z., Cao J., Tie X., G. Li*: Insights into particulate matter pollution in the North China Plain during wintertime: local contribution or regional transport? Atmospheric Chemistry and Physics, 21(3), 2229-2249, 2021.
21) Feng, T., Bei, N., Zhao, S., Wu, J., Liu, S., Li, X., Liu L., Wang R., Zhang X., Tie X., G. Li*: Nitrate debuts as a dominant contributor to particulate pollution in Beijing: roles of enhanced atmospheric oxidizing capacity and decreased sulfur dioxide emission, Atmospheric Environment, 244, 117995, 2021.
22) Zhang, X., Feng, T., Zhao, S., Yang, G., Zhang, Q., Qin, G., Liu, L., Long, X., Sun, W., Gao, C., and G. Li: Elucidating the impacts of rapid urban expansion on air quality in the Yangtze River Delta, China, Science of The Total Environment, 799, 149426, 2021.
23) Zhao, S., Feng, T., Tie, X., G. Li., and Cao, J.: Air Pollution Zone Migrates South Driven by East Asian Winter Monsoon and Climate Change, Geophysical Research Letters, 48, 2021.
24) Sun, J., Shen, Z., Wang, R., G. Li., Zhang, B., He, K., Tang, Z., Xu, H., Qu, L., Ho, S. S. H., Liu, S., and Cao, J.: A comprehensive study on ozone pollution in a megacity in North China Plain during summertime: Observations, source attributions and ozone sensitivity, Environmental International, 146, 106279, 2020.
25) Xing, M., Liu, W. G., Li, X., Zhou, W. J., Wang, Q. Y., Tian, J., Li, X. F., Tie, X. X., G. Li., Cao, J. J., Bao, H. M., and An, Z. S.: Vapor isotopic evidence for the worsening of winter air quality by anthropogenic combustion-derived water, Proceedings of the National Academy of Sciences of the United States of America, 117, 33005- 33010, 2020.
26) Le, T., Wang, Y., Liu, L., Yang, J., Yung, Y. L., Li, G., and Seinfeld., J. H.: Unexpected air pollution with marked emission reductions during the COVID-19 outbreak in China, Science, 369(6504), 702, 2020.
27) Liu, L., Bei, N., Hu, B., Wu, J., Liu, S., Li, X., Wang R., Liu Z., Shen Z., G. Li*: Wintertime nitrate formation pathways in the north China plain: Importance of N2O5 heterogeneous hydrolysis, Environmental Pollution, 266, 115287, 2020.
28) Wu, J., Bei, N., Hu, B., Liu, S., Wang, Y., Shen, Z., Li X., Liu L., Wang R., Liu Z., Cao J., Tie X., Molina L., G. Li*: Aerosol–photolysis interaction reduces particulate matter during wintertime haze events, Proceedings of the National Academy of Sciences, 117(18), 9755-9761, 2020.
29) Bei, N., Li, X., Tie, X., Zhao, L., Wu, J., Li, X., Liu L., Shen Z., G. Li*: Impact of synoptic patterns and meteorological elements on the wintertime haze in the Beijing-Tianjin-Hebei region, China from 2013 to 2017, Science of the Total Environment, 704, 135210, 2020.
30) Liu, L., N. Bei, J. Wu, S. Liu, J. Zhou, X. Li, Q. Wang, T. Feng, J. Cao, X. Tie, and G. Li*: Effects of stabilized Criegee Intermediates (sCI) on the sulfate formation: A case study during summertime in Beijing-Tianjin-Hebei (BTH), China, Atmospheric Chemistry and Physics, 19, 13341-13354, 2019.
31) Liu, L., J. Wu, S. Liu, X. Li, J. Zhou, T. Feng, Y. Qian, J. Cao, X. Tie, and G. Li*: Effects of organic coating on the nitrate formation by suppressing the N2O5 heterogeneous hydrolysis: a case study during wintertime in Beijing-Tianjin-Hebei (BTH), Atmospheric Chemistry and Physics, 19, 8189-8207, 2019.
32) Wu, J., N. Bei, B. Hu, S. Liu, M. Zhou, Q. Wang, X. Li, L. Liu, T. Feng, Z. Liu, Y. Wang, J. Cao, X. Tie, J. Wang, L. T. Molina, and G. Li*: Aerosol-radiation feedback deteriorates the wintertime haze in North China Plain, Atmospheric Chemistry and Physics, 19, 8703-8719, 2019.
33) Wu, J., N. Bei, B. Hu, S. Liu, M. Zhou, Q. Wang, X. Li, L. Liu, T. Feng, Z. Liu, Y. Wang, J. Cao, X. Tie, J. Wang, L. T. Molina, and G. Li*: Is water vapor a key player of the wintertime haze in North China Plain? Atmospheric Chemistry and Physics, 19, 8721-8739, 2019.
34) Feng, T., S. Zhao, N. Bei, J. Wu, S. Liu, X. Li, L. Liu, Y. Qian, Q. Yang, Y. Wang, W. Zhou, J. Cao, and G. Li*: Secondary organic aerosol enhanced by increasing atmospheric oxidizing capacity in Beijing–Tianjin–Hebei (BTH), China, Atmospheric Chemistry and Physics, 19, 7429–7443, 2019.
35) Xing, L., J. Wu, M. Elser, S. Tong, S. Liu, X. Li, L. Liu, J. Cao*, J. Zhou, I. El- Haddad, R. Huang, M. Ge, X. Tie, and G. Li*: Wintertime secondary organic aerosol formation in Beijing–Tianjin–Hebei (BTH): contributions of HONO sources and heterogeneous reactions, Atmospheric Chemistry and Physics, 19, 2343- 2359, 2019.
36) Tie X., X. Long, G. Li, S. Zhao, J. Cao and J. Xu: Ozone enhancement due to the photodissociation of nitrous acid in eastern China, Atmospheric Chemistry and Physics, 17, 11267-11278, 2019.
37) Long, X., X. Tie, J. Zhou, W. Dai W, X. Li, T. Feng, G. Li, J. Cao, and Z. An: Impact of Green Light Program on haze in the North China Plain, China, Atmospheric Chemistry and Physics, 17, 11185-11197, 2019.
38) Wang R., X. Tie, G. Li, S. Zhao, X. Long, L. Johansson, and Z. An: Effect of ship emissions on O3 in the Yangtze River Delta region of China: Analysis of WRF- Chem modeling, Science of the Total Environment, 683, 360-370, 2019.
39) An, Z., R. Huang, R. Zhang, X. Tie, G. Li, J. Cao, W. Zhou, Z. Shi, Y. Han, Z. Gu, and Y. Ji: Severe haze in Northern China: A synergy of anthropogenic emissions and atmospheric processes, Proceedings of the National Academy of Sciences of the United States of America, 18, 8657-8666, 2019.
40) Feng, T., W. Zhou, S. Wu, Z. Niu, P. Cheng, X. Xiong, and G. Li: High-resolution simulation of wintertime fossil fuel CO2 in Beijing, China: Characteristics, sources, and regional transport, Atmospheric Environment, 198, 226-235, 2019.
41) Feng, T., N. Bei, S. Zhao, J. Wu, X. Li, T. Zhang, J. Cao, W. Zhou, and G. Li* (2018) Wintertime nitrate formation during haze days in the Guanzhong basin, China: A case study, Environmental Pollution, 243, 1057-1067, 2018.
42) Long, X., N. Bei, J. Wu, X. Li, T. Feng, L. Xing, S. Zhao, J. Cao, X. Tie, Z. An, and G. Li*: Does afforestation deteriorate haze pollution in Beijing–Tianjin–Hebei (BTH), China? Atmospheric Chemistry and Physics, 18, 10869-10879, 2018.
43) Li, X., J. Wu, M. Elser, T. Feng, J. Cao, I. El-Haddad, R. Huang, X. Tie, A. S. H. Prévôt, and G. Li*: Contributions of residential coal combustion to the air quality in Beijing–Tianjin–Hebei (BTH), China: a case study, Atmospheric Chemistry and Physics, 18, 10675–10691, 2018.
44) Wu, J., N. Bei, X. Li, J. Cao, T. Feng, Q. Wang, X. Tie, and G. Li*: Widespread air pollutants of the North China Plain during the Asian summer monsoon season: a case study, Atmospheric Chemistry and Physics, 18, 8491–8504, 2018.
45) Long, X., X. Tie*, G. Li*, J. Cao, T. Feng, S. Zhao, L. Xing, and Z. An: Effect of ecological restoration programs on dust concentrations in the North China Plain: a case study, Atmospheric Chemistry and Physics, 18, 6353–6366, 2018.
46) Bei, N., L. Zhao, J. Wu, X. Li, T. Feng, and G. Li*: Impacts of sea-land and mountain-valley circulations on the air pollution in Beijing-Tianjin-Hebei (BTH): A case study, Environmental Pollution, 234, 429–438, 2018.
47) Zhao, S., T. Feng, X. Tie, X. Long, G. Li, J. Cao, W. Zhou, and Z. An: Impact of climate change on Siberian High and wintertime air pollution in China in past two decades, Earth's Future, 6, 118–131, 2018.
48) Feng, T., W. Zhou, S. Wu, Z. Niu, P. Cheng, X. Xiong, and G. Li: Simulations of summertime fossil fuel CO2 in the Guanzhong basin, China, Science of Total Environment, 624, 1163–1170, 2018.
49) Bei, N., J. Wu, M. Elser, T. Feng, J. Cao, I. El-Haddad, X. Li, R. Huang, Z. Li, X. Long, L. Xing, S. Zhao, X. Tie, A. S. H. Prévôt, and G. Li*: Impacts of meteorological uncertainties on the haze formation in Beijing–Tianjin–Hebei (BTH) during wintertime: a case study, Atmospheric Chemistry and Physics, 17, 14579– 14591, 2017.
50) Zhou, X., N. Bei, H. Liu, J. Cao, L. Xing, W. Lei, L. T. Molina, and G. Li*: Aerosol effects on the development of cumulus clouds over the Tibetan Plateau, Atmospheric Chemistry and Physics, 17(12), 7423–7434, 2017.
51) Tie, X., R. Huang, J. Cao, Q. Zhang, Y. Cheng, H. Su, D. Chang, U. Poschl, T. Hoffmann, U. Dusek, G. Li, D. Worsnop, and C. O’Dowd: Severe pollution in China amplified by atmospheric moisture, Scientific Report, 15760, 7, 2017.
52) Huang, R. J., L. Yang, J. Cao, Q. Wang, X. Tie, K. F. Ho, Z. Shen, R. Zhang, G. Li, C. Zhu, N. Zhang, W. Dai, J. Zhou, S. Liu, Y. Chen, J, Chen, and C. D. O‘Dowd: Concentration and sources of atmospheric nitrous acid (HONO) at an urban site in Western China, Science of the Total Environment, 593, 165–172, 2017.
53) Wang, Y. C., R. Huang, H. Ni, Y. Chen, Q. Wang, G. Li, X. Tie, Z. Shen, Y. Huang,S. Liu, W. Dong, P. Xue, R. Frohlich, F. Canonaco, M. Elser, K. Daellenbach, C. Bozzetti, I. El- Haddad, A. S. H. Prevot, M. R. Canagaratna, D. R. Worsnop, and J. Cao: Chemical composition, sources and secondary processes of aerosols in Baoji city of northwest China, Atmospheric Environment, 158, 128–137, 2017.
54) Li, G.*, N. Bei, J. Cao*, R. Huang*, J. Wu, T. Feng, Y. Wang, S. Liu, Q. Zhang, X. Tie, and L. T. Molina: A possible pathway for rapid growth of sulfate during haze days in China, Atmospheric Chemistry and Physics, 17, 3301–3316, 2017.
55) Li, G.*, N. Bei, J. Cao*, J. Wu, X. Long, T. Feng, W. Dai, S. Liu, Q. Zhang, and X. Tie: Widespread and persistent ozone pollution in eastern China during the non-winter season of 2015: observations and source attributions, Atmospheric Chemistry and Physics, 17, 2759–2774, 2017.
56) Wu, J., G. Li*, J. Cao*, N. Bei, Y. Wang, T. Feng, R. Huang, S. Liu, Q. Zhang, and X. Tie: Contributions of trans-boundary transport to summertime air quality in Beijing, China, Atmospheric Chemistry and Physics, 17, 2035–2051, 2017.
57) Su, X., X. Tie, G. Li, J. Cao, R. Huang, T. Feng, X. Long, and R. Xu: Effect of hydrolysis of N2O5 on nitrate and ammonium formation in Beijing China: WRF- Chem model simulation, Science of the Total Environment, 579, 221–229, 2016.
58) Feng, T., N. Bei, R. Huang, J. Cao, Q. Zhang, W. Zhou, X. Tie, S. Liu, T. Zhang, X. Su, W. Lei, L. T. Molina, and G. Li*: Summertime ozone formation in Xi'an and surrounding areas, China, Atmospheric Chemistry and Physics, 16, 4323–4342, 2016.
59) Bei, N.*, G. Li*, R. Huang, J. Cao, N. Meng, T. Feng, S. Liu, T. Zhang, Q. Zhang, and L. T. Molina: Typical synoptic situations and their impacts on the wintertime air pollution in the Guanzhong basin, China, Atmospheric Chemistry and Physics, 16, 7373–7387, 2016.
60) Feng, T., G. Li*, J. Cao*, N. Bei, Z. Shen, W. Zhou, S. Liu, T. Zhang, Y. Wang, R. Huang, X. Tie, and L. T. Molina: Simulations of organic aerosol concentrations during springtime in the Guanzhong Basin, China, Atmospheric Chemistry and Physics, 16, 10045–10061, 2016.
61) Long, X., X. Tie, J. Cao, R. Huang, T. Feng, N. Li, S. Zhao, J. Tian, G. Li, and Q. Zhang: Impact of crop field burning and mountains on heavy haze in the north china plain: a case study, Atmospheric Chemistry and Physics, 16, 15–33, 2016.
62) Elser, M., R. Huang, R. Wolf, J. G. Slowik, Q. Wang, F. Canonaco, G. Li, C. Bozzetti, K. R. Daellenbach, Y. Huang, R. Zhang, Z. Li, J. Cao, U. Baltensperger, El-Haddad, and A. S. H. Prévôt: New insights into PM2.5 chemical composition and sources in two major cities in China during extreme haze events using aerosol mass spectrometry, Atmospheric Chemistry and Physics, 16, 3207–3225, 2016.
63) Wang, G., R. Zhang, M. E. Gomez, L. Yang, M. E. Levy, M. Hu, Y. Lin, J. Peng, S. Guo, J. Meng, J. Li, C. Cheng, T. Hu, Y. Ren, Y. Wang, J. Gao, J. Cao, Z. An, W. Zhou, G. Li, J. Wang, P. Tian, W. Marrero-Ortiz, J. Secrest, Z. Du, J. Zheng, D. Shang, L. Zeng, M. Shao, W. Wang, Y. Huang, Y. Wang, Y. Zhu, Y. Li, J. Hu, B. Pan, L. Cai, Y. Cheng, Y. Ji, F. Zhang, D. Rosenfeld, P. S. Liss, R. A. Duce, C. E. Kolb, and M. J. Molina: Persistent sulfate formation form London fog to Chinese haze, Proceedings of the National Academy of Sciences of the United States of America, 113(48), 136030–13635, 2016.
64) Tie, X., R. Huang, W. Dai, J. Cao, X. Long, X. Su, S. Zhao, Q. Wang, and G. Li: Effect of heavy haze and aerosol pollution on rice and wheat productions in China, Scientific Reports, 6, 29612–29617, 2016.
65) Long, X., N. Li, X. Tie, J. Cao, S. Zhao, R. Huang, M. Zhao, G. Li, and T. Feng (2016), Urban dust in the Guanzhong Basin of China, part I: A regional distribution of dust sources retrieved using satellite data, Science of the Total Environment, 541, 1603–1613.
66) Li, N., X. Long, X. Tie, J. Cao, R. Huang, R. Zhang, T. Feng, S. Liu, and G. Li: Urban dust in the Guanzhong basin of China, part II: A case study of urbandust pollution using the WRF-Dust model, Science of the Total Environment, 541, 1614–1624, 2016.
67) Wang, Q., R. Huang, J. Cao, X. Tie, Z. Shen, S. Zhao, Y. Han, G. Li, Z. Li, and H. Ni: Contribution of regional transport to the black carbon aerosol during winter haze period in Beijing, Atmospheric Environment, 132, 11–18, 2016.
68) 3Li, N., Q. He, X. Tie, J. Cao, S. Liu, Q. Wang, G. Li, R. Huang, and Q. Zhang: Quantifying sources of elemental carbon over the Guanzhong basin of china: a consistent network of measurements and WRF-Chem modeling, Environmental Pollution, 214, 86–93, 2016.
69) Han, Y., C. Wei, B. A. M. Bandowe, W. Wilcke, J. Cao, B. Xu, S. Gao, X. Tie, G. Li, Z. Jin, and Z. An: Elemental Carbon and Polycyclic Aromatic Compounds in a 150-Year Sediment Core from Lake Qinghai, Tibetan Plateau, China: Influence of Regional and Local Sources and Transport Pathways, Environmental Science and Technology, 49(7), 4176-4183, 2015.
70) Zhao, S., X. Tie, J. Cao, N. Li, G. Li, Q. Zhang, C. Zhu, X. Long, J. Li, T. Feng, and X. Su: Seasonal variation and four-year trend of black carbon in the Mid-west China: The analysis of the ambient measurement and WRF-Chem modeling, Atmospheric Environment, 123, 430–439, 2015.
71) Li, G.*, N. Bei, M. Zavala, and L. T. Molina: Ozone formation along the California Mexican border region during Cal-Mex 2010 field campaign, Atmospheric Environment, 88, 370–389, 2014.
72) Bei, N., G. Li, Z. Meng, Y. Weng, M. Zavala, and L. T. Molina: Impacts of using an ensemble Kalman filter on air quality simulations along the California- Mexico border region during Cal-Mex 2010 Field Campaign, Science of the Total Environment, 499, 141–153, 2014.
73) Shen, Z., J. Cao, L. Zhang, Z. Zhao, J. Dong, L. Wang, Q. Wang, G. Li, S. Liu, and Q. Zhang: Characteristics of surface O3 over Qinghai lake area in Northeast Tibetan plateau, China, Science of the Total Environment, s500–501, 295– 301, 2014.
74) Zhang, R., J. Cao, Y. Tang, R. Arimoto, Z. Shen, F. Wu, Y. Han, G. Wang, J. Zhang, and G. Li: Elemental profiles and signatures of fugitive dusts from Chinese deserts, Science of the Total Environment, 472(472C), 1121–1129, 2014.
75) Levy, M. E., R. Zhang, J. Zheng, H. Tan, Y. Wang, L. T. Molina, S. Takahama, L.M. Russell, and G. Li: Measurements of submicron aerosols at the California-Mexico border during the Cal-Mex 2010 field campaign, Atmospheric Environment, 88, 308–319, 2014.
76) Wang, Q., R. Huang, J. Cao, Y. Han, G. Wang, G. Li, Y. Wang, W. Dai, R. Zhang, and Y. Zhou: Mixing State of Black Carbon Aerosol in a Heavily Polluted Urban Area of China: Implications for Light Absorption Enhancement, Aerosol Science and Technology, 48(7), 689–697, 2014.
77) Almanza, V. H., L. T. Molina, G. Li, J. Fast, and G. Sosa: Impact of external industrial sources on the regional and local SO2 and O3 levels of the Mexico megacity, Atmospheric Chemistry and Physics, 13(16), 8483–8499, 2014.
78) Tie, X., F. Geng, A. Guenther, J. Cao, J. Greenberg, R. Zhang, E. Apel, G. Li, A. Weinheimer, J. Chen, and C. Cai: Megacity impacts on regional ozone formation: observations and WRF-Chem modeling for the MIRAGE-Shanghai field campaign, Atmospheric Chemistry and Physics, 13, 5655–5669, 2013.
79) Lei, W., G. Li, and L. T. Molina: Modeling the impacts of biomass burning on air quality in and around Mexico City, Atmospheric Chemistry and Physics, 13(5), 2299–2319, 2013.
80) Zheng, J., R. Zhang, J. P. Garzon, M. E. Huertas, M. E. Levy, Y. Ma, R. T. Jardon, L. G. Ruiz, L. Russell, S. Takahama, H. Tan, G. Li, and L. T. Molina: Measurements of formaldehyde at the US-Mexico border during the Cal-Mex 2010 air quality study, Atmospheric Environment, 70, 513–520, 2013.
81) Rivera, C., H. Barrera, M. Grutter, M. Zavala, B. Galle, N. Bei, G. Li, L. T. Molina: NO2 fluxes from Tijuana using a mobile mini-DOAS during Cal-Mex 2010, Atmospheric Environment, 70, 532–539, 2013.
82) Bei, N., G. Li, M. Zavala, H. Barrera, R. Torres, M. Grutter, W. Gutierrez, M. Garcia, L. G. Ruiz, A. Ortinez, Y. Guitierrez, C. Alvarado, I. Flores, and L. T. Molina: Meteorological overview and plume transport patterns during Cal- Mex 2010, Atmospheric Environment, 70, 477–489, 2013.
83) Bei, N., G. Li, and L. T. Molina: Uncertainties in SOA simulations due to meteorological uncertainties in Mexico City during MILAGRO-2006 field campaign, Atmospheric Chemistry and Physics, 12, 11295–11308, 2012.
84) Li, G.*, Lei, W., Bei, N., and Molina, L. T.: Contribution of garbage burning to chloride and PM2.5 in Mexico City, Atmospheric Chemistry and Physics, 12, 8751–8761, 2012.
85) Geng, F., X. Tie, A. Guenther, G. Li, J. Cao, and P. Harley: Effect of isoprene emissions from major forests on ozone formation in the city of Shanghai, China, Atmospheric Chemistry and Physics, 11, 10449–10459, 2011.
86) Ying, Z., X. Tie, S. Madronich, G. Li, S. Massie: Simulation of regional dust and its effect on photochemistry in the Mexico City area during MILAGRO experiment, Atmospheric Environment, 45, 2549–2558, 2011.
87) Li, G.*, N. Bei, X. Tie, and L. T. Molina: Aerosol effects on the photochemistry in Mexico City during MCMA-2006/MILAGRO campaign, Atmospheric Chemistry and Physics, 11, 5169–5182, 2011.
88) Li, G.*, M. Zavala, W. Lei, A. P. Tsimpidi, V. A. Karydis, S. N. Pandis, M. R. Canagaratna, and L. T. Molina: Simulations of organic aerosol concentrations in Mexico City using the WRF-CHEM model during the MCMA- 2006/MILAGRO campaign, Atmospheric Chemistry and Physics, 11, 3789–3809, 2011.
89) Cao, J., X. Tie, B. Xu, Z. Zhao, C. Zhu, G. Li, and S. Liu: Measuring and modeling black carbon (BC) contamination in the SE Tibetan Plateau, Journal of Atmospheric Chemistry, 67, 45–60, 2010.
90) Li, G.*, W. Lei, M. Zavala, R. Volkamer, S. Dusanter, P. Stevens, and L. T. Molina: Impacts of HONO sources on the photochemistry in Mexico City during the MCMA-2006/MILAGO Campaign, Atmospheric Chemistry and Physics, 10, 6551– 6567, 2010.
91) Li, G., Y. Wang, K.-H. Lee, Y. Diao, and R. Zhang: Impacts of aerosols on the development and precipitation of a mesoscale squall line, Journal of Geophysical Research, 2009.
92) Tie, X., S. Madronich, G. Li, Z. Ying, A. Weinheimer, E. Apel, and T. Campos: Simulation of Mexico City plumes during the MIRAGE-Mex field campaign using the WRF-Chem model, Atmospheric Chemistry and Physics, 9, 4621– 4638, 2009.
93) Ying, Z., X. Tie, and G. Li: Sensitivity of ozone concentrations to diurnal variations of surface emissions in Mexico City: A WRF/Chem modeling study, Atmospheric Environment, 43, 851–859, 2009.
94) Li, G., Y. Wang, K.-H. Lee, Y. Diao, R. Zhang: Increased winter precipitation over the North Pacific from 1984–1994 to 1995–2005 inferred from the Global Precipitation Climatology Project, Geophysical Research Letters, 35, L13821, 2008.
95) Li, G., Y. Wang, and R. Zhang: Implementation of a two-moment bulk microphysics scheme to the WRF model to investigate aerosol-cloud interaction, Journal of Geophysical Research, 113, D15211, 2008.
96) Fan, J., R. Zhang, G. Li, and W.-K. Tao: Effects of aerosols and relative humidity on cumulus clouds, Journal of Geophysical Research, 112, D14204, 2007.
97) Li, G., R. Zhang, J. Fan, X. Tie: Impacts of biogenic emissions on photochemical ozone production in Houston, Texas, Journal of Geophysical Research, 112, D10309, 2007.
98) Zhang, R., G. Li, J. Fan, D. L. Wu, and M. J. Molina: Intensification of Pacific storm track linked to Asian pollution, Proceedings of the National Academy of Sciences of the United States of America, 104, 5295-5299, 2007.
99) Fan, J., R. Zhang, G. Li, W.-K. Tao and X. Li: Simulations of cumulus clouds using a spectral microphysics cloud-resolving model, Journal of Geophysical Research, 112, D04201, 2007.
100) Tie, X, S. Madronich, G. Li, Z. Ying, R. Zhang, A. Garcia, J. Lee-Taylor and Y. Liu: Characterizations of Chemical Oxidants in Mexico City: A Regional Chemical/dynamical Model (WRF-Chem) Study, Atmospheric Environment, 41, 1989–2008, 2007.
101) Zhang, F., N. Bei, J. W. Nielsen-Gammon, G. Li, R. Zhang, A. Stuart, A. Aksoy: Impacts of meteorological uncertainties on ozone pollution predictability estimated through meteorological and photochemical ensemble forecasts, Journal of Geophysical Research, 112, 2007.
102) Fan, J., R. Zhang, D. R. Collins, and G. Li: Contribution of secondary condensational organics to new particle formation: a case study in Houston, Texas, Geophysical Research Letters, 33, 2006.
103) Tie, X., G. Li, Z. Ying, A. Guenther, and S. Madronich: Biogenic emissions of VOCs and NO in China and Comparison to Anthropogenic Emissions, Science of Total Environment, 371, 238–251, 2006.
104) Zhang, Q., C. Zhao, X. Tie, Q. Wei, G. Li, and C. Li: Characterizations of Aerosols over the Beijing Region: A Case Study of Aircraft Measurements, Atmospheric Environment, 40, 4513–4527, 2006.
105) Li, G., R. Zhang, J. Fan, and X. Tie: Impacts of black carbon aerosol on photolysis and ozone, Journal of Geophysical Research, 110, 2005.
106) Fan, J., R. Zhang, G. Li, and J. Nielsen-Gammon, Simulations of fine particular matter (PM2.5) in Houston, Texas: Journal of Geophysical Research, 110, D16203, 2005.