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黄忠伟

【来源:十大赌博正规网址排名榜 | 发布日期:2010-12-13 | 【选择字号:
黄忠伟,教授,博士生导师,十大网投正规信誉官网下载萃英学者,甘肃省领军人才,教育部青年长江学者,现任十大赌博正规网址排名榜院长。长期从事激光雷达大气遥感、生物气溶胶探测及其气候效应研究,已发表SCI论文100余篇(H-index29),主持科技部国家重点研发计划项目课题、国家自然科学基金委面上项目、青年基金项目等国家级科研项目,以第一发明人获批国家发明专利8项、美国发明专利1项、德国发明专利1项;获批实用新型专利12项、软件著作权4项;2017年作为骨干成员入选首批全国高校黄大年式教师团队;2018年荣获甘肃省科技进步一等奖(4/12);2020年荣获甘肃省环境科学技术一等奖(3/9);2021年荣获兰州市优秀科技工作者称号,2022年荣获第十届甘肃青年科技奖、十大网投正规信誉官网下载国华青年英才奖,2023年荣获教育部国家研究生教学成果二等奖(5/15)。
黄忠伟教授立足于西北,在十大网投正规信誉官网下载建成了具有一定国际影响力、体系完备的激光雷达大气遥感研究中心,带领团队建设了“一带一路”气候与环境观测网(已建成7个国内站,2个国外站),该观测网将是丝绸之路经济带世界一流的气候与环境综合观测平台,并有望成为由十大网投正规信誉官网下载发起的国际大科学工程。
 
讲授课程:
1、国家精品课程《大气探测学》(本科生)
2、省级精品课程《雷达气象学》(本科生)
3、《大气遥感及应用》(研究生)
 
教育经历:
2003.09-2007.07十大网投正规信誉官网下载物理科学与技术学院物理学专业(学士)
2007.09-2012.07十大赌博正规网址排名榜大气物理学与大气环境专业(博士)
2009.10-2010.10日本东北大学理学部(国家公派联合培养)
2010.10-2011.10日本国立环境研究所大气遥感研究中心(国家公派联合培养)
2013.01-2013.06台湾中央大学物理系(博士后)
 
工作经历:
2009.09-2012.07  十大赌博正规网址排名榜 助教
2012.07-2016.07  十大赌博正规网址排名榜 讲师
2016.07-2019.11  十大赌博正规网址排名榜 副教授
2019.11-至今     十大赌博正规网址排名榜 教授
2018.09-2024.01  十大赌博正规网址排名榜 副院长
2024.01-至今     十大赌博正规网址排名榜 院长
 
荣誉获奖:
教育部国家级教学成果奖(2023年,5/15)
十大网投正规信誉官网下载国华青年英才奖(2022年)
第十届甘肃青年科技奖(2022年)
甘肃领军人才称号(2021年)
兰州市优秀科技工作者称号(2021年)
甘肃省环境科学技术一等奖(2020年,3/9)
十大网投正规信誉官网下载青年五四奖章(2020年)
十大网投正规信誉官网下载萃英学者(2019年)
教育部青年长江学者(2018年)
甘肃省科技进步一等奖(2018年,4/12)
甘肃省第九届大学生创新创业大赛二等奖(2018年,指导老师)
首批全国高校黄大年式教师团队(2017年,骨干成员)
十大网投正规信誉官网下载本科生毕业论文“优秀指导教师”称号(2016年)
十大网投正规信誉官网下载“优秀班主任”称号(2015年)
 
学术兼职:
甘肃省气象学会青年工作委员会副主任委员(2023.06-)
中国核学会计算物理分会第九届理事会理事(2023.10-)
中国激光杂志社第三届青年编辑委员会委员、《光学学报》青年编委(2023.01-2025.12)
国际大气环境遥感学会(“AERSS学会”)学会理事、第五工作组(Lidar group)联合主席;(2022.01-)
《大气与环境光学学报》青年编委(2020.12-2024.12)
 
代表性论文(第一或通讯作者):
1. Huang, Z., Dong, Q., Xue, F., Qi, J., Yu, X., Maki, T., Du, P., Gu, Q., Tang, S., Shi, J., Bi, J.,  Zhou, T., and Huang, J.*, 2024: Large-scale Dust-Bioaerosol field observations in East Asia. Bulletin of the American Meteorological Society. 105(3). E501?E517. doi.org/10.1175/BAMS-D-23-0108.1
2. Liu, Q., Huang, Z.*, Liu, J., Chen, W., Dong, Q., Wu, S., Dai, G., Li, M., Li, W., Li, Z., Song, X., and Xie, Y., 2024: Validation of initial observation from the first spaceborne high-spectral-resolution lidar with a ground-based lidar network. Atmospheric Measurement Techniques, 17, 1403?1417, doi.org/10.5194/amt-17-1403-2024
3. Huang, Z., Yu, X., Liu, Q., Maki, T., Alam, K., Wang, Y., Xue, F., Tang, S., Du, P., Dong, Q., Wang, D., Huang, J.*, 2023. Bioaerosols in the atmosphere: A comprehensive review on detection methods, concentration and influencing factors. Science of The Total Environment 912, 168818. doi.org/10.1016/j.scitotenv.2023.168818
4. Qi, J., Huang, Z.*, Xue, F., Gao, Z., Maki, T., Zhang, Z., Liu, K., Ji, M., Liu, Y., 2023. Aridification alters the diversity of airborne bacteria in drylands of China. Atmospheric Environment 315, 120135. doi.org/10.1016/j.atmosenv.2023.120135
5. Ali, Md.A., Wang, Y., Bilal, M., Assiri, M.E., Islam, A.R.M.T., Malafaia, G., Huang, Z.*, Mhawish, A., Islam, M.N., Qiu, Z., Ahmed, R., Almazroui, M., 2023. Trace Gases over Land and Ocean Surfaces of China: Hotspots, Trends, and Source Contributions. Earth Systems and Environment, doi.org/10.1007/s41748-023-00354-0
6. Zhou, T., Zhou, X., Yang, Z., Córdoba-Jabonero, C., Wang, Y., Huang, Z.*, Da, P., Luo, Q., Zhang, Z., Shi, J., Bi, J., Alikhodja, H., 2023. Transboundary transport of non-east and East Asian dust observed at Dunhuang, northwest China. Atmospheric Environment 318, 120197. doi.org/10.1016/j.atmosenv.2023.120197
7. Wang, Y., Huang, Z.*, Zhou, T., Bi, J., Shi, J., 2023. Identification of fluorescent aerosol observed by a spectroscopic lidar over northwest China. Optics Express 31, 22157. doi.org/10.1364/OE.493557
8. Ali, Md.A., Huang, Z.*, Bilal, M., Assiri, M.E., Mhawish, A., Nichol, J.E., De Leeuw, G., Almazroui, M., Wang, Y., Alsubhi, Y., 2023. Long-term PM2.5 pollution over China: Identification of PM2.5 pollution hotspots and source contributions. Science of The Total Environment 893, 164871. doi.org/10.1016/j.scitotenv.2023.164871
9. Du, P., Huang, Z.*, Tang, S., Dong, Q., Bi, J., Yu, X., Gu, Q., 2023. Long?Term Variation of Dust Devils in East Asia During 1959?2021. Journal of Geophysical Research: Atmospheres 128, e2022JD038013. https://doi.org/10.1029/2022JD038013
10. Huang, Z.*, Dong, Q., Chen, B., Wang, T., Bi, J., Zhou, T., Alam, K., Shi, J., Zhang, S., 2023. Method for retrieving range-resolved aerosol microphysical properties from polarization lidar measurements. Optics Express 31, 7599. doi.org/10.1364/OE.481252
11. Huang, Z., Li, M., Bi, J.*, Shen, X., Zhang, S., Liu, Q., 2023. Small lidar ratio of dust aerosol observed by Raman-polarization lidar near desert sources. Optics Express 31, 16909. doi.org/10.1364/OE.484501
12. Huang, Z., Shen, X., Tang, S., Zhou, T.*, Dong, Q., Zhang, S., Li, M., Wang, Y., 2023. Simulated depolarization ratios for dust and smoke at laser wavelengths: implications for lidar application. Optics Express 31, 10541. doi.org/10.1364/OE.484335
13. Zhang, S., Huang, Z.*, Alam, K., Li, M., Dong, Q., Wang, Y., Shen, X., Bi, J., Zhang, J., Li, W., Li, Z., Wang, W., Cui, Z., Song, X., 2023. Derived Profiles of CCN and INP Number Concentrations in the Taklimakan Desert via Combined Polarization Lidar, Sun-Photometer, and Radiosonde Observations. Remote Sensing 15, 1216. doi.org/10.3390/rs15051216
14. Liu, Q., Huang, Z.*, Hu, Z., Dong, Q., Li, S., 2022. Long?Range Transport and Evolution of Saharan Dust Over East Asia From 2007 to 2020. Journal of Geophysical Research: Atmospheres 127, e2022JD036974. doi.org/10.1029/2022JD036974
15. 黄忠伟, 王雍恺, 闭建荣, 王天河, 李武仁, 李泽, 周天, 2022: 气溶胶激光雷达的国内外研究进展与展望, 遥感学报, 26(5), doi: 10.11834/jrs.20221388.
16. Zhang, S., Huang, Z.*, Li, M., Shen, X., Wang, Y., Dong, Q., Bi, J., Zhang, J., Li, W., Li, Z., Song, X., 2022. Vertical Structure of Dust Aerosols Observed by a Ground-Based Raman Lidar with Polarization Capabilities in the Center of the Taklimakan Desert. Remote Sensing 14, 2461. doi.org/10.3390/rs14102461
17. Dong, Q., Huang, Z.*, Li, W., Li, Z., Song, X., Liu, W., Wang, T., Bi, J., Shi, J., 2022. Polarization Lidar Measurements of Dust Optical Properties at the Junction of the Taklimakan Desert?Tibetan Plateau. Remote Sensing 14, 558. doi.org/10.3390/rs14030558
18. Qi, S., Huang, Z.*, Ma, X., Huang, J., Zhou, T., Zhang, S., Dong, Q., Bi, J., Shi, J., 2021. Classification of atmospheric aerosols and clouds by use of dual-polarization lidar measurements. Optics Express 29, 23461. doi.org/10.1364/OE.430456
19. Huang, Z., Huang, J.*, Gu, Q., Du, P., Liang, H., Dong, Q., 2020. Optimal temperature zone for the dispersal of COVID-19. Science of The Total Environment 736, 139487. doi.org/10.1016/j.scitotenv.2020.139487
20. Qi, J., Huang, Z.*, Maki, T., Kang, S., Guo, J., Liu, K., Liu, Y., 2020. Airborne bacterial communities over the Tibetan and Mongolian Plateaus: variations and their possible sources. Atmospheric Research 247, 105215. doi.org/10.1016/j.atmosres.2020.105215
21. Ma, X., Huang, Z.*, Qi, S., Huang, J., Zhang, S., Dong, Q., Wang, X., 2020. Ten-year global particulate mass concentration derived from space-borne CALIPSO lidar observations. Science of The Total Environment 721, 137699. doi.org/10.1016/j.scitotenv.2020.137699
22. Huang, Z., Qi, S., Zhou, T.*, Dong, Q., Ma, X., Zhang, S., Bi, J., Shi, J., 2020. Investigation of aerosol absorption with dual-polarization lidar observations. Optics Express 28, 7028. doi.org/10.1364/OE.390475
23. Huang, Z.*, Nee, J.-B.*, Chiang, C.-W., Zhang, S., Jin, H., Wang, W., Zhou, T., 2018. Real-Time Observations of Dust?Cloud Interactions Based on Polarization and Raman Lidar Measurements. Remote Sensing 10, 1017. doi.org/10.3390/rs10071017
24. Tang, K., Huang, Z.*, Huang, J., Maki, T., Zhang, S., Shimizu, A., Ma, X., Shi, J., Bi, J., Zhou, T., Wang, G., Zhang, L., 2018. Characterization of atmospheric bioaerosols along the transport pathway of Asian dust during the Dust-Bioaerosol 2016 Campaign. Atmospheric Chemistry and Physics, 18, 7131?7148. doi.org/10.5194/acp-18-7131-2018
25. Huang, Z., Huang, J.*, Hayasaka, T., Wang, S., Zhou, T., Jin, H., 2015. Short-cut transport path for Asian dust directly to the Arctic: a case study. Environmental Research Letters, 10, 114018. doi.org/10.1088/1748-9326/10/11/114018
26. Huang, Z., Huang, J.*, Bi, J., Wang, G., Wang, W., Fu, Q., Li, Z., Tsay, S., Shi, J., 2010. Dust aerosol vertical structure measurements using three MPL lidars during 2008 China?U.S. joint dust field experiment. Journal of Geophysical Research, 115, 2009JD013273. doi.org/10.1029/2009JD013273
 
合作者论文:
1. Pan, H., Huang, J.*, Li, J., Huang, Z., Wang, M., Ali. Mamtimin., Huo, W., Yang, Fan, Zhou, Tian., and Kanike Raghavendra Kumar, 2024: The Tibetan Plateau space-based tropospheric aerosol climatology: 2007?2020. Earth System Science Data, 16, 1185?1207, doi.org/10.5194/essd-16-1185-2024
2. Jin, S., Ma, Y.*, Huang, Z., Huang, J., Gong, W., Liu, B., Wang, W., Fan, R., Li, H., 2023. A comprehensive reappraisal of long-term aerosol characteristics, trends, and variability in Asia. Atmospheric Chemistry and Physics, 23, 8187?8210. doi.org/10.5194/acp-23-8187-2023
3. Chen, B.*, Dong, L., Huang, J., Wang, Y., Jing, Z., Yan, W., Wang, X., Song, Z., Huang, Z., Guan, X., Dong, X., Huang, Y., 2023. Analysis of Long?Term Trends in the Vertical Distribution and Transport Paths of Atmospheric Aerosols in Typical Regions of China Using 15 Years of CALIOP Data. Journal of Geophysical Research:  Atmospheres 128, e2022JD038066. doi.org/10.1029/2022JD038066
4. Ma, J., Li, R.*, Liu, H., Huang, Z., Wu, T., Wu, X., Zhao, L., Hu, G., Xiao, Y., Jiao, Y., Liu, W., Wang, S., Shi, J., Qiao, Y., 2023. Evaluation of CLM5.0 for simulating surface energy budget and soil hydrothermal regime in permafrost regions of the Qinghai-Tibet Plateau. Agricultural and Forest Meteorology 332, 109380. doi.org/10.1016/j.agrformet.2023.109380
5. Haq, M., Iqbal, M.J., Alam, K., Huang, Z., Blaschke, T., Qureshi, S., Muhammad, S.*, 2023. Assessment of Runoff Components of River Flow in the Karakoram Mountains, Pakistan, during 1995?2010. Remote Sensing 15, 399. doi.org/10.3390/rs15020399
6. Cai, J., Zhou, Z., Huang, Z., Dai, W., Yu, F.R., 2023. Privacy-Preserving Deployment Mechanism for Service Function Chains Across Multiple Domains. IEEE Trans. Netw. Serv. Manage. 1?1. doi.org/10.1109/TNSM.2023.3311587
7. 廖家艳,周天,韩璧森,黄忠伟,闭建荣,2023:我国西北半干旱区气溶胶类型的地基激光雷达判别,干旱气象,41(04),570-578.
8. Dai, G., Wu, S., Long, W., Liu, J., Xie, Y., Sun, K., Meng, F., Song, X.*, Huang, Z., Chen, W., 2023. Aerosols and Clouds data processing and optical properties retrieval algorithms for the spaceborne ACDL/DQ-1. Aerosols/Remote Sensing/Data Processing and Information Retrieval. doi.org/10.5194/egusphere-2023-2182
9. 黄建平,张北斗,王丹凤,黄忠伟,陈思宇,陈 斌,李 旭,胡淑娟,2022:21世纪交叉学科的新方向:气候变化与重大疫情监测预警,十大网投正规信誉官网下载学报(医学版),48(11):1-3.DOI:10.13885/j.issn.1000-2812.2022.11.001.
10. Ahmad, M., Hussain, K., Nasir, J., Huang, Z., Alam*, K., Liaquat, S., Wang, P., Hussain, W., Mihaylova, L., Ali, A., Farhan, S.B., 2022. Air Quality Assessment along China-Pakistan Economic Corridor at the Confluence of Himalaya-Karakoram-Hindukush. Atmosphere 13, 1994. doi.org/10.3390/atmos13121994
11. Ma, J., Li, R.*, Huang, Z., Wu, T., Wu, X., Zhao, L., Liu, H., Hu, G., Xiao, Y., Du, Y., Yang, S., Liu, W., Jiao, Y., Wang, S., 2022. Evaluation and spatio-temporal analysis of surface energy flux in permafrost regions over the Qinghai-Tibet Plateau and Arctic using CMIP6 models. International Journal of Digital Earth 15, 1947?1965. doi.org/10.1080/17538947.2022.2142307
12. Chen, S., Tong, B., Russell, L.M., Wei, J., Guo, J., Mao, F., Liu, D.*, Huang, Z., Xie, Y., Qi, B., Zhang, H., Sun, Y., Zhang, B., Xu, C., Wu, L., Liu, D., 2022. Lidar-based daytime boundary layer height variation and impact on the regional satellite-based PM2.5 estimate. Remote Sensing of Environment 281, 113224. doi.org/10.1016/j.rse.2022.113224
13. Maki, T.*, Noda, J., Morimoto, K., Aoki, K., Kurosaki, Y., Huang, Z., Chen, B., Matsuki, A., Miyata, H., Mitarai, S., 2022. Long-range transport of airborne bacteria over East Asia: Asian dust events carry potentially nontuberculous Mycobacterium populations. Environment International 168, 107471. doi.org/10.1016/j.envint.2022.107471
14. Anwar, K., Alam, K.*, Liu, Yangang, Huang, Z., Huang, J., Liu, Yuzhi, 2022. Analysis of aerosol cloud interactions with a consistent signal of meteorology and other influencing parameters. Atmospheric Research 275, 106241. doi.org/10.1016/j.atmosres.2022.106241
15. Liu, C., Huang, Z., Huang, J.*, Liang, C., Ding, L., Lian, X., Liu, X., Zhang, L., Wang, D., 2022. Comparison of PM2.5 and CO2 Concentrations in Large Cities of China during the COVID-19 Lockdown. Advances in Atmospheric Science, 39, 861?875. doi.org/10.1007/s00376-021-1281-x
17. Ma, J., Li, R.*, Liu, H., Huang, Z., Wu, T., Hu, G., Xiao, Y., Zhao, L., Du, Y., Yang, S., 2022. The Surface Energy Budget and Its Impact on the Freeze-thaw Processes of Active Layer in Permafrost Regions of the Qinghai-Tibetan Plateau. Advances in Atmospheric Science, 39, 189?200. doi.org/10.1007/s00376-021-1066-2
18. Han, B., Zhou, T.*, Zhou, X., Fang, S., Huang, J., He, Q., Huang, Z., Wang, M., 2022. A New Algorithm of Atmospheric Boundary Layer Height Determined from Polarization Lidar. Remote Sensing 14, 5436. https://doi.org/10.3390/rs14215436
19. Bi, J.*, Li, Z., Zuo, D., Yang, F., Li, B., Ma, J., Huang, Z., He, Q., 2022. Dust Aerosol Vertical Profiles in the Hinterland of Taklimakan Desert During Summer 2019. Frontiers in Environmental Science, 10, 851915. doi.org/10.3389/fenvs.2022.851915
20. Qi, J., Ji, M., Wang, W., Zhang, Z., Liu, K., Huang, Z., Liu, Y.*, 2022. Effect of Indian monsoon on the glacial airborne bacteria over the Tibetan Plateau. Science of The Total Environment 831, 154980. doi.org/10.1016/j.scitotenv.2022.154980
21. Han, Y., Wang, T.*, Tan, R., Tang, J., Wang, C., He, S., Dong, Y., Huang, Z., Bi, J., 2022. CALIOP-Based Quantification of Central Asian Dust Transport. Remote Sensing 14, 1416. doi.org/10.3390/rs14061416
22. Bi, J.*, Zuo, D., Yang, F., Zhang, L., Huang, Z., Wang, T., 2022. Surface radiation characteristics and downward cloud radiative forcing in southern Xinjiang during summer 2019. Meteorology and Atmospheric Physics, 134, 11. doi.org/10.1007/s00703-021-00847-5
23. Yang, L., Zhang, S.*, Huang, Z., Yang, Y., Wang, L., Han, W., Li, X., 2021. Characteristics of Dust Events in China from 2015 to 2020. Atmosphere 12, 952. doi.org/10.3390/atmos12080952
24. Wen, H., Zhou, Y., Xu, X., Wang, T., Chen, Quanliang, Chen, Qingcai, Li, W., Wang, Z., Huang, Z., Zhou, T., Shi, J., Bi, J., Ji, M., Wang, X.*, 2021. Water-soluble brown carbon in atmospheric aerosols along the transport pathway of Asian dust: Optical properties, chemical compositions, and potential sources. Science of The Total Environment 789, 147971. doi.org/10.1016/j.scitotenv.2021.147971
25. Yang, L., Hu, Z.*, Huang, Z., Wang, L., Han, W., Yang, Y., Tao, H., Wang, J., 2021. Detection of a Dust Storm in 2020 by a Multi-Observation Platform over the Northwest China. Remote Sensing 13, 1056. doi.org/10.3390/rs13061056
26. Zhang, L., Tang, C., Huang, J., Du, T., Guan, X., Tian, P., Shi, J., Cao, X., Huang, Z., Guo , Q., Zhang, H., Wang, M., Zeng, H., Wang, F., and Dolkar, P., 2021.
Unexpected High Absorption of Atmospheric Aerosols Over a Western Tibetan Plateau Site in Summer. Journal of Geophysical Research: Atmospheres, 126, e2020JD033286. doi. org/10.1029/2020JD033286
27. Wang, T., Han, Y., Hua, W., Tang, J., Huang, J.*, Zhou, T., Huang, Z., Bi, J., Xie, H., 2021. Profiling Dust Mass Concentration in Northwest China Using a Joint Lidar and Sun-Photometer Setting. Remote Sensing 13, 1099. doi.org/10.3390/rs13061099
28. Liu, X., Huang, J.*, Li, C., Zhao, Y., Wang, D., Huang, Z., Yang, K., 2021. The role of seasonality in the spread of COVID-19 pandemic. Environmental Research 195, 110874. doi.org/10.1016/j.envres.2021.110874
29. Zhou, T., Xie, H., Jiang, T., Huang, J.*, Bi, J., Huang, Z., Shi, J., 2021. Seasonal characteristics of aerosol vertical structure and autumn enhancement of non-spherical particle over the semi-arid region of northwest China. Atmospheric Environment 244, 117912. doi.org/10.1016/j.atmosenv.2020.117912
30. Huang, J.*, Zhang, L., Liu, X., Wei, Y., Liu, C., Lian, X., Huang, Z., Chou, J., Liu, Xingrong, Li, X., Yang, K., Wang, J., Liang, H., Gu, Q., Du, P., Zhang, T., 2020. Global prediction system for COVID-19 pandemic. Science Bulletin 65, 1884?1887. doi.org/10.1016/j.scib.2020.08.002
31. Zhou, T., Xie, H., Bi, J., Huang, Z., Huang, J.*, Shi, J., Zhang, B., Zhang, W., 2018. Lidar Measurements of Dust Aerosols during Three Field Campaigns in 2010, 2011 and 2012 over Northwestern China. Atmosphere 9, 173. doi.org/10.3390/atmos9050173
32. Wang, X.*, Wen, H., Shi, J., Bi, J., Huang, Z., Zhang, B., Zhou, T., Fu, K., Chen, Q., Xin, J., 2018. Optical and microphysical properties of natural mineral dust and anthropogenic soil dust near dust source regions over northwestern China.  Atmospheric Chemistry and Physics, 18, 2119?2138. doi.org/10.5194/acp-18-2119-2018
33. Xie, H., Zhou, T., Fu, Q., Huang, J.*, Huang, Z., Bi, J., Shi, J., Zhang, B., Ge, J., 2017. Automated detection of cloud and aerosol features with SACOL micro-pulse lidar in northwest China. Optics Express 25, 30732. doi.org/10.1364/OE.25.030732
34. Gao, X., Cao, X., Tian, P., Zhang, L.*, Huang, Z., Zhou, T., 2017. Combined observation of a dust storm over the Loess Plateau using a dual-wavelength lidar and an aethalometer. Atmospheric Pollution Research 8, 1103?1112. doi.org/10.1016/j.apr.2017.04.010
35. Li, H., Yang, Y., Hu, X.-M., Huang, Z., Wang, G., Zhang, B., 2017. Application of Convective Condensation Level Limiter in Convective Boundary Layer Height Retrieval Based on Lidar Data. Atmosphere 8, 79. doi.org/10.3390/atmos8040079
36. Li, H., Yang, Y.*, Hu, X., Huang, Z., Wang, G., Zhang, B., Zhang, T., 2017. Evaluation of retrieval methods of daytime convective boundary layer height based on lidar data. Journal of Geophysical Research: Atmospheres 122, 4578?4593. doi.org/10.1002/2016JD025620
37. Tian, P., Cao, X., Zhang, L.*, Sun, N., Sun, L., Logan, T., Shi, J., Wang, Y., Ji, Y., Lin, Y., Huang, Z., Zhou, T., Shi, Y., Zhang, R., 2017. Aerosol vertical distribution and optical properties over China from long-term satellite and ground-based remote sensing. Atmospheric Chemistry and Physics, 17, 2509?2523. doi.org/10.5194/acp-17-2509-2017
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