10. Tuo Ya, Panjie Qiao, Feng Zhang, Wenqi Liu, Qingquan Li🙍🏼，2024，Predicting summer precipitation anomalies in the Yunnan-Guizhou plateau using spring sea-surface temperature anomalies. Atmosphere. 15(4), 453; https://doi.org/10.3390/atmos15040453

11. Wang Weiwei, Tuantuan Zhang, Junwen Chen, Qingquan Li, Song Yang, Yi Deng, 2024. Quantitative attribution of the temperature associated with winter extreme cold events in China. Climate Dynamics, 62:413–429, https://doi.org/10.1007/s00382-023-06906-4

12. Wu Chunyu, Qingquan Li*, Lili Dong, Hongming Yan, Dongqian Wang, Xiaoting Sun. 2023. Rainy season onset date in Southwest China and the related atmospheric circulations. Atmospheric Research. 298 (2024) 107127,  https://doi.org/10.1016/j.atmosres.2023.107127

13. Li Xiyi🏇🏽，Qingquan Li*，Yihui Ding, Song Yang, et al. 2023. Possible influence of the interdecadal variation of the extratropical southern Indian Ocean SST on East Asian summer monsoon precipitation. Atmospheric Research. 288 (2023) 106721. https://doi.org/10.1016/j.atmosres.2023.106721

14. Zhao Chongbo, Qingquan Li*, Yu Nie,Fang Wang, Bing Xie, Lili Dong, Jie Wu. 2023. The reversal of surface air temperature anomalies in China between early and late winter 2021/2022: Observations and predictions, Advances in Climate Change Research. https://doi.org/10.1016/j.accre.2023.09.004

15. Zhang Shiyu, Minghao Wang, Lanning Wang, Xin-Zhong Liang, Chao Sun, Qingquan Li*. 2023. Sensitivity of the simulation of extreme precipitation events in China to different cumulus parameterization schemes and the underlying mechanisms. Atmospheric Research 285 (2023) 106636. https://doi.org/10.1016/j.atmosres.2023.106636

16. Yu Liwei, Si Dong，Dabang Jiang, Yihui Ding, Xinyong Shen, Xianmei Liang, Qingquan Li, Zhiping Tian. 2023. Tibetan Plateau booster effect on the influence of Atlantic multidecadal variability on the East Asian summer rainfall. Journal of Climate, 36, 3437-3452.  DOI: 10.1175/JCLI-D-22-0472.1.

17. Yu Liwei, Dong Si, Xinyong Shen, Xianmei Lang, Ran Zhang, Qingquan Li. 2023. Impact of Tibetan Plateau vertical heating on the Asian summer monsoon on the interdecadal scale. Atmospheric Science Letters, e1140. https://doi.org/10.1002/asl.1140

18. Zhao Liang , Wei Dong, Xinyong Shen, Yihui Ding, Qingquan Li, Yamin Hu, Ziniu Xiao, et al. 2023. Human activity and simultaneous high pressure anomalies influence the long- duration cold events of winter in China. Climate Dynamics , https://doi.org/10.1007/s00382-023-06719-5

19. Zhao Liang, Tingting, Liang Zhao, Ling Zhang, Xinyong Shen, Yihui Ding, Jingsong Wang, Qingquan Li, Yanju Liu, Yamin Hu, Jian Ling, Zhihui Li, Cunrui Huang. 2023. Changes in temperature-precipitation compound extreme events in China during the past119 years. Earth and Space Science, 10, e2022EA002777. https://doi.org/10.1029/2022EA002777

21. Ding Yihui, Sun Xiaoting，Qingquan Li. 2023. Interdecadal variation in Rossby wave source over the Tibetan Plateau and its impact on the East Asia circulation pattern during boreal summer. Atmosphere, 14, 541. https://doi.org/10.3390/ .

22. Wang Weiwei, Song Yang, Qingquan Li, Xingwen Jiang, 2023. Alternate modulations of ENSO and the Arctic Oscillation on winter extreme cold events in China. Atmospheric Research.https://doi.org/10.1016/j.atmosres.2022.106532

23. Wang Weiei, Song Yang, Tuantuan Zhang, Qingquan Li, and Wei Wei, 2022: Sub-seasonal prediction of the South China Sea summer monsoon onset in the NCEP Climate Forecast System Version 2. Adv. Atmos. Sci., doi.org/10.1007/s00376-022-1403-0.

24. Li Xiucang, Ping Wu, Yihui Ding, Yanju Liu, Qingquan Li. 2022. Spatial-temporal variation of precipitation recycling over the Tibetan Plateau under climate warming. Atmospheric Research, doi.org/10.1016/j.atmosres.2022.106431

25. Wu  Jie, Ying Liu, Yongsheng Li, Jinqing Zuo, Yu Nie, Qingquan Li, Shuai Zhang, Dongqian Wang.  2022. The extreme Northeast China cold vortex activities in the late spring of 2021 and possible causes involved. Advances in Climate Change Research, doi.org/10.1016/j.accre.2022.09.002.

26. Sun Xiaoting, Qinghua Ding, Simon Wang, Dániel Topál, Qingquan Li, 21世纪第2个10年初华北夏季降水年代际增加及与大气环流异常的联系，气象学报. 81(5): 764-775.

45. 张焓⚔️，梁信忠，汪方，谢冰🕟，李清. 2023. CWRF降尺度提高BCC_CSM1.1m对中国夏季降水跨季度动力预测能力🧑🏿‍💻，大气科学学报，2💃🏿：161-179.

46. 朱万林💆‍♂️，李清泉*🔘，王遵娅🥐，沈新勇. 2022. 近60年中国冷空气过程气候变率分析，气象，48(1)：1-13

47. 俞静雯，李清泉*，丁一汇🪷，张杰, 吴清源, 沈新勇. 2021.气候变暖背景下青藏高原夏季水汽的长期变化趋势分析. 中国科学：地球科学.

48. 王娟怀, 李清泉*, 汪方, 杨守懋📫，胡娅敏. 2021.基于DERF2.0的华南前汛期降水订正预测.应用气象学报, 32(1):115-128.

49. 王璠🧑🏼‍🦰，李清泉*👨🏿‍🦱，孙银川，王岱, 郑广芬, 朱晓炜. 2021. 宁夏冬季极端低温事件特征及其与秋季北极海冰异常的联系．高原气象，40（4）🙆🏽‍♂️：887-897.

50. 王庆元，李清泉，李琰🧦，刘一玮🏔，王亚男. 2021.1982–2019 年渤、黄海海洋热浪时空变化特征分析. 海洋学报▪️， 43(12)：38–49👩🏻‍🦼‍➡️，

51. 赵萌初, 李清泉, 沈新勇, 王庆元. 2021. 1984-2017年ISCCP-FH辐射资料在青藏高原地区的适用性评估.气象，47(1)➿：11-23.

52. 汤秭晨🦄，李清泉，王黎娟，伍丽泉. 2021. CanESM5和MIROC6模式CMIP6年代际试验中国气温预测能力评估.气候变化研究进展👨‍🏫， 17 (2): 162-174.

53. 王冰笛，李清泉，沈新勇👩🏻‍🦳，董李丽🙌🏼🤙，汪方，王涛👩🏻‍🎓✭，梁信忠. 2020. 区域气候模式CWRF 对东亚冬季风气候特征的模拟. 地球科学进展， 35（3）：319-330.

出版书籍

1．李清泉🧎‍♀️‍➡️，封国林, 等，2019. 全球变化背景下东亚地区气候年际-年代际变率及其可预报性研究. 北京, 科学出版.

2.  李清泉，王东阡🧏🏻， 等,  2016. 东亚季风年鉴2015. 北京,气象出版社.

3.  李维京💇‍♀️，陈丽娟，李清泉，等. 2012. 现代气候业务. 北京🧘🏿‍♀️，气象出版社

其它情况

李清泉个人主页：http://ncclcs.ncc-cma.net/Website/?NewsID=3621

  #以上信息由本人提供，更新时间：2024/10/14