[1] S Y Yang, S W Zhou. Review of researches on tropopause in recent 30 years. Meteorological Science and Technology, 38, 145-151(2010).

[2] Z Y Liu, Y Q Sun, W H Bai et al. Comparison of RO tropopause height based on different tropopause determination methods. Advances in Space Research, 67, 845-857(2021).

[3] J R Holton, P H Haynes, M E Mclntyre et al. Stratosphere-troposphere exchange. Reviews of Geophysics, 33, 403-439(1995).

[5] J Wu, Q Yang, C B Fu et al. Climatological characteristics of East Asia tropopause height under global warming background. Journal of Tropical Meteorology, 23, 595-600(2007).

[6] W Yuan, J Y Xu, R P Ma. Variation characteristics of tropopause temperature and height from COSMIC. Chinese Journal of Space Science, 29, 311-318(2009).

[7] L Wang, C B Xie, Y Han et al. Comparison of retrieval methods of planetary boundary layer height from lidar data. Journal of Atmospheric and Environmental Optics, 7, 241-247(2012).

[8] X C Qu, J C An, G Liu. Analysis of Antarctic tropopause with COSMIC occultation data. Geomatics and Information Science of Wuhan University, 39, 605-610(2014).

[9] X H Wang, Y Z Xu, C X Zhang et al. Spatial-temporal variation of tropospheric NO2 concentration in Pearl River Delta based on EMI observations. Journal of Atmospheric and Environmental Optics, 16, 197-206(2021).

[10] D J Seidel, R J Ross, J K Angell et al. Climatological characteristics of the tropical tropopause as revealed by radiosondes. Journal of Geophysical Research: Atmospheres, 106, 7857-7878(2001).

[11] H Liu, Z G Wei, H Wei et al. Characteristic of tropopause height over China in recent 51 years. Plateau Meteorology, 31, 351-358(2012).

[12] J B Guo, S G Jin. Variations of tropopause parameters over China from FY-3C GNSS Radio occultation observations. Journal of Geodesy and Geodynamics, 41, 21-26(2021).

[13] S W Zhou, D Zheng, Y L Qin et al. Comparison on variation features of tropical tropopause pressure over the Tibetan Plateau and the other regions in the same latitudes. Transactions of Atmospheric Sciences, 42, 660-671(2019).

[14] Z J Fu, B J Dong, C W Zhang. Correlation analysis between greenhouse effects and tropopause over China. Journal of Arid Meteorology, 29, 182-188(2011).

[16] J Li, F Cai, H Q Ming et al. Climatic characteristics of the first tropopause height over Liaoning Province. Journal of Meteorology and Environment, 25, 9-15(2009).

[17] J Y Huang. Statistical Analysis and Forecast Method of Meteorology (3rd Edition)(2004).

[18] R H Xie, A H Wang, W Hua. Temporal and spatial distribution characteristics and influencing factors of pan evaporation in China from 1961 to 2013. Climatic and Environmental Research, 25, 483-498(2020).

[19] J Yu, J Q Zhang, M Zhang. Study on meso-βscale torrential rain with EOF. Chinese Journal of Atmospheric Sciences, 38, 795-803(2014).

[20] X Y Yan, Q Zhang, W B Zhang et al. Analysis of climate characteristics in the Pan-Central-Asia arid region. Arid Zone Research, 38, 1-11(2021).

[21] L G Bian, Z Lin, X D Zheng et al. Trend of Antarctic ozone hole and its influencing factors. Climate Change Research, 7, 90-96(2011).