[1] J Garratt. R. The atmospheric boundary layer. Earth-Science Reviews, 37, 89-134(1994).

[2] J R Holton, G J Hakim. The Planetary Boundary Layer. An Introduction to Dynamic Meteorology, 255-277(2013).

[3] C Hua, B H Zhang, H D Zhang. Analysis on boundary layer characteristics in fog and haze processes in North China from January to February 2013. Meteorological Monthly, 41, 1144-1151(2015).

[4] C Chu. Parameterization of shallow convection in the boundary layer. Planetary Boundary Layer, 1, 1-82(1986).

[5] F L Chen, S Jiang, M H Li et al. The role of boundary layer jet in two severe rainfalls over eastern region of Guangdong Province. Meteorological Monthly, 47, 290-302(2021).

[6] D A Hooper, A J McDonald, E Pavelin et al. The signature of mid-latitude convection observed by VHF wind-profiling radar. Geophysical Research Letters, 32, L04808(2005).

[7] S G Benjamin, B E Schwartz, S E Koch et al. The value of wind profiler data in U.S. weather forecasting. Bulletin of the American Meteorological Society, 85, 1871-1886(2004).

[8] L Dunn. An example of subjective interpretation of network profiler data in real-time forecasting. Weather and Forecasting, 1, 219-225(1986).

[9] S X Zhou, X L Deng, C H Wang et al. Analysis of meteorological conditions for a typical fog and haze event over Eastern China in winter of 2018. Plateau Meteorology, 39, 1110-1121(2020).

[10] Y Zhang, J P Guo, Y J Yang et al. Vertical wind shear modulates particulate matter pollutions: A perspective from radar wind profiler observations in Beijing, China. Remote Sensing, 12, 546-558(2020).

[11] B S Murthy, R Latha, A Tiwari et al. Impact of mixing layer height on air quality in winter. Journal of Atmospheric and Solar-Terrestrial Physics, 197, 105157(2020).

[12] Y W Qu, Y Han, Y H Wu et al. Study of PBLH and its correlation with particulate matter from one-year observation over Nanjing, southeast China. Remote Sensing, 9, 668-699(2017).

[13] Z Q Li, J P Guo, A J Ding et al. Aerosol and boundary-layer interactions and impact on air quality. National Science Review, 4, 810-833(2017).

[14] C S Miao, J H Wang. The boundary layer jet and the excessive rain during Mei-Yu rain in Yangtze and Huaihe rivers. Journal of the Meteorological Sciences, 15, 38-46(1995).

[15] C Wang, Y Chen, M Chen et al. Data assimilation of a dense wind profiler network and its impact on convective forecasting. Atmospheric Research, 238, 104880(2020).

[16] Y C Miao, J P Guo, S H Liu et al. The climatology of low-level jet in Beijing and Guangzhou, China. Journal of Geophysical Research: Atmospheres, 123, 2816-2830(2018).

[17] X D Xu, G A Ding, L G Bian et al. Characteristics of atmospheric environment of boundary layer structure of city community in BECAPEX and integrate influence. Acta Meteorologica Sinica, 62, 663-671(2004).

[18] H N Liu, W M Jiang, J N Sun et al. An observation and analysis of the micrometeorological characteristics of the Nanjing urban boundary layer, eastern China. Journal of Nanjing University (Natural Sciences), 44, 99-106(2008).

[19] S G Miao, W M Jiang, P Liang et al. Advances in urban meteorology in China. Acta Meteorologica Sinica, 78, 477-499(2020).

[20] Y J Guo, G F Wang. Radiosonde temperature trends and uncertainties over China in recent 60 years. Acta Meteorologica Sinica, 77, 1073-1085(2019).

[21] B M Liu, J P Guo, W Gong et al. Characteristics and performance of wind profiles as observed by the radar wind profiler network of China. Atmospheric Measurement Techniques, 13, 4589-4600(2020).

[22] Z S Yu, C X Ji, C Yang et al. Impacts of assimilating wind profiler radar observations on precipitation prediction in Zhejiang Province. Journal of Applied Meteorological Science, 29, 97-110(2018).

[23] X F Zhang, Z C Wang, J J Mao et al. Experiments on improving temperature and humidity profile retrieval for ground-based microwave radiometer. Journal of Applied Meteorological Science, 31, 385-396(2020).

[24] Q F Zhai, J G Zhang, B F Wang et al. Correlation analysis of atmospheric temperature and humidity profiles retrieved from microwave radiometer with precipitation. Journal of Meteorology and Environment, 36, 98-107(2020).

[25] T Li, H G Li, Z P Luan et al. Analysis on characteristics of temperature and humidity profiles under different pollution conditions in Ji'nan based on microwave radiometer data. Ecology and Environment, 29, 2045-2052(2020).

[26] T Bai, J F Ding, Y H Liu et al. Application of microwave radiometer in monitoring water vapor characteristics and precipitation analysis. Meteorological and Environmental Sciences, 44, 102-107(2021).

[27] Z Y Gao, Z Ruan, M Wei et al. Quality factors and processing algorithm for wind profiling radar data. Journal of Applied Meteorological Science, 27, 148-159(2016).

[28] H Hersbach, B Bell, P Berrisford et al. The ERA5 global reanalysis. Quarterly Journal of the Royal Meteorological Society, 146, 1999-2049(2020).

[29] L Hoffmann, G Günther, D Li et al. From ERA-Interim to ERA5: The considerable impact of ECMWF's next-generation reanalysis on Lagrangian transport simulations. Atmospheric Chemistry and Physics, 19, 3097-3124(2019).

[30] X G Meng, J J Guo, Y Q Han. Preliminarily assessment of ERA5 reanalysis data. Journal of Marine Meteorology, 38, 91-99(2018).

[31] X L Deng, C Shi, B W Wu et al. Analysis of aerosol characteristics and their relationships with meteorological parameters over Anhui province in China. Atmospheric Research, 109-110, 52-63(2012).

[32] Y Qian, X L Ma, Q Y Guo et al. Error analysis of sounding temperature data based on the FNL and GRAPES analysis fields. Meteorological Monthly, 45, 1464-1475(2019).

[33] R Q Lyu, X Li. Comparison between the applicability of ERA-Interim and ERA5 reanalysis in Jiangsu Province. Marine Forecasts, 38, 27-37(2021).

[35] Y J Guo, S Q Zhang, J H Yan et al. A comparison of atmospheric temperature over China between radiosonde observations and multiple reanalysis datasets. Acta Meteorologica Sinica, 74, 271-284(2016).

[36] S Q Zhang, Y J Guo, G F Wang. A comparative study of atmospheric humidity over China between radiosonde and the third generation reanalysis datasets. Acta Meteorologica Sinica, 76, 289-303(2018).

[37] X Xie, L Qi, N L Huang et al. Comparison of four reanalysis datasets and upper-air observations about temperature over southeastern China. Atmospheric Science Research and Application, 1, 13-25(2013).

[38] Y Zhang. A preliminary analysis on the applicability of ERA5 reanalysis data in Guangdong Province. Meteorological and Environmental Research, 11, 37-42(2020).