李建

    副院長/研究員

lij@cma.gov.cn

010-68408842

研究興趣

東亞氣候；復雜地形區天氣氣候及數值模擬🪗；降水精細化特征

教育背景

2002-09 至 2006-12🔜，中國科學院大氣物理研究所，大氣科學，博士

1998-09 至 2002-06🙍🏻‍♂️，南京氣象學院🛶，氣象學🤾‍♂️，學士

研究經歷

2022-01 至 今🤳🏼，中國氣象科學研究院📴，災害天氣國家重點實驗室🤵🏻，研究員

2019-09 至 2022-01，中國氣象科學研究院，氣候與氣候變化研究所，研究員

2014-06 至 2019-09🏂🏿，中國氣象科學研究院💆‍♀️👨‍👩‍👦，氣候系統研究所，研究員

2008-08 至 2014-06🐨，中國氣象科學研究院，氣候系統研究所，副研究員

承擔課題

國家重點研發計劃重點項目👩‍🦳，青藏高原致災氣象過程發生機理及預報方法研究👋🏻，2023-11至2026-10，主持

國家自然科學基金國家傑出青年基金，氣候學與氣候系統，2023-01至2027-12，主持

學術兼職

世界天氣研究計劃中國委員會（CNC-WWRP）委員

中國氣象學會高原氣象學委員會副主任

獲獎情況

2020年，新時代氣象高層次科技創新人才計劃氣象領軍人才，中國氣象局

2019年，第四屆中國科協優秀科技論文👱🏽‍♀️，中國科學技術協會

2017年，中國氣象局科技領軍人才🦎， 中國氣象局

2016年，大氣科學基礎研究成果獎一等獎，中國氣象學會

發表論文

（本人名稱加粗，通訊作者加*號）

Zhang, M., Li, J.^*, Li, N., Sun, W., Li, P., & Zhao, Y. (2024). Spatial inhomogeneity of synoptic‐induced precipitation in a region of steep topographic relief: A case study. Journal of Geophysical Research: Atmospheres, 129(6), e2023JD039129.

Sun, W., Li, J.^*, Yu, R., Li, N., & Zhang, Y. (2024). Exploring changes of precipitation extremes under climate change through global variable-resolution modeling. Science Bulletin, 69(2), 237-247.

Li, J.^*, Yu, R., Yue, X., Zhang, M., & Li, N. (2023). Quantifying the spatial unevenness of precipitation in central and eastern China. Journal of Hydrometeorology, 24(11), 2141-2149.

Yu, L., Zhuge, X., Yuan, W., Gao, N., Li, J.^*, Fu, Y.^*, ... & Kan, W. (2023). Cloud characteristics over the Yunnan–Guizhou plateau as observed by MODIS and Himawari‐8. International Journal of Climatology, 43(16), 8072-8085.

Zhao, Y., Li, J.^*, Ren, L., Li, N., & Li, P. (2023). Fine‐Scale Characteristics and Dominant Synoptic Factors of Spring Precipitation Over Complex Terrain of the Southeastern Tibetan Plateau. Journal of Geophysical Research: Atmospheres, 128(11), e2022JD038352.

Zhao, Y., Li, J.^*, & Li, P. (2023). Diurnal cycle of precipitation over the southeastern Tibetan Plateau and surrounding regions: Insights from intensity–frequency structure. International Journal of Climatology, 43(7), 3284-3297.

Chen, T., Li, J.^*, Zhang, Y., Chen, H., Li, P., & Che, H. (2023). Evaluation of Hourly Precipitation Characteristics from a Global Reanalysis and Variable-Resolution Global Model over the Tibetan Plateau by Using a Satellite-Gauge Merged Rainfall Product. Remote Sensing, 15(4), 1013.

李建^*, 包慶, 雷荔傈, 等. 2023: 國家自然科學基金大氣科學學科二級申請代碼下設研究方向與關鍵詞解讀👥：D0511 大氣數值模式發展[J]. 大氣科學, 47(1): 194−202.

肖雨佳, 李建^*, 李妮娜. 2022: CMIP6 HighResMIP高分辨率氣候模式對青藏高原降水模擬的評估. 暴雨災害, 41(2):215-22

Zhang, Y.^*, Li, X., Liu, Z., Rong, X., Li, J.^*, Zhou, Y., & Chen, S. (2022). Resolution sensitivity of the GRIST nonhydrostatic model from 120 to 5 km (3.75 km) during the DYAMOND winter. Earth and Space Science, 9(9), e2022EA002401.

Xu, A., Li, J.^*, Du, Q., & Dong, B. (2022). Long‐Term (2007 to 2018) Energy and CO2 Fluxes over an Agriculture Ecosystem in the Southeastern Margin of the Tibetan Plateau. Advances in Meteorology, 2022(1), 4329199.

Zhao, Y., Li, J.^*, & Li, P. (2022). Difference in the atmospheric water cycle over the Hengduan Mountains between wet and dry summers. International Journal of Climatology, 42(10), 5293-5305.

Liang-Liang, L., Jian, L.^*, & Ru-Cong, Y. (2022). Evaluation of CMIP6 HighResMIP models in simulating precipitation over Central Asia. Advances in Climate Change Research, 13(1), 1-13.

李建^*, 陳昊明. 2021: IPCC 第六次評估報告中的《圖集》. 氣候變化研究進展, 17(6), 726-729.

Zhang, Y.^*, Yu, R.^*, Li, J.^*, Li, X., Rong, X., Peng, X., & Zhou, Y. (2021). AMIP simulations of a global model for unified weather‐climate forecast: Understanding precipitation characteristics and sensitivity over East Asia. Journal of Advances in Modeling Earth Systems, 13(11), e2021MS002592.

Zhang, M., Li, J.^*, & Li, N. (2021). Fine-scale characteristics of summer precipitation over Cang Mountain. Journal of Applied Meteorology and Climatology, 60(9), 1285-1300.

張銘明,李建^*,甘玉婷,李妮娜. 2021: 基於GWR模型的中國中東部降水與海拔關系特征分析.暴雨災害, 40(1):1-11.

Rong, X., Li, J.^*, Chen, H., Su, J., Hua, L., Zhang, Z., & Xin, Y. (2021). The CMIP6 Historical Simulation Datasets Produced by the Climate System Model CAMS-CSM. Advances in Atmospheric Sciences, 38, 285-295.

Li, L., Li, J.^*, & Yu, R. (2020). Characteristics of summer regional rainfall events over Ili River Valley in Northwest China. Atmospheric research, 243, 104996.

Li, N., Li, J.^*, Rong, X., Chen, H., Xin, Y., & Su, J. (2020). Obtaining more information about precipitation biases over East Asia from hourly-scale evaluation of model simulation. Journal of Meteorological Research, 34(3), 515-528.

Xu, A., & Li, J.^* (2020). An overview of the integrated meteorological observations in complex terrain region at Dali National Climate Observatory, China. Atmosphere, 11(3), 279.

Xue, H., Li, J.^*, Qian, T., & Gu, H. (2020). A 100-m-scale modeling study of a gale event on the lee side of a long narrow mountain. Journal of Applied Meteorology and Climatology, 59(1), 23-45.

容新堯,李建^*,陳昊明,辛羽飛,蘇京誌,華莉娟,張正秋,2019: CAMS-CSM 模式及其參與 CMIP6 的方案.氣候變化研究進展,15(5), 540-544.

Gan, Y., Li, N., & Li, J.^* (2019). Differences in the rainfall characteristics between Mount Tai and its surrounding areas. Journal of Meteorological Research, 33(5), 976-988.

Li, J., Li, N., & Yu, R.^* (2019). Regional differences in hourly precipitation characteristics along the western coast of South China. Journal of Applied Meteorology and Climatology, 58(12), 2717-2732.

Li, L., Li, J.^*, Chen, H., & Yu, R. (2019). Diurnal variations of summer precipitation over the Qilian Mountains in Northwest China. Journal of Meteorological Research, 33(1), 18-30.

Rong, X., Li, J.^*, Chen, H., Xin, Y., Su, J., Hua, L., ... & Li, J. (2018). The CAMS climate system model and a basic evaluation of its climatology and climate variability simulation. Journal of Meteorological Research, 32(6), 839-861.

Chen, H., Li, J.^*, & Yu, R. (2018). Warm season nocturnal rainfall over the eastern periphery of the Tibetan Plateau and its relationship with rainfall events in adjacent regions. International Journal of Climatology, 38(13), 4786-4801.

Sun, W., Li, J.^*, Yu, R., & Yuan, W. (2018). Circulation structures leading to propagating and non-propagating heavy summer rainfall in central North China. Climate dynamics, 51, 3447-3465.

Li, J., Chen, H.^*, Rong, X., Su, J., Xin, Y., Furtado, K., ... & Li, N. (2018). How well can a climate model simulate an extreme precipitation event: A case study using the Transpose-AMIP experiment. Journal of Climate, 31(16), 6543-6556.

Li, J.^*(2018). Hourly station‐based precipitation characteristics over the Tibetan Plateau. International Journal of Climatology, 38(3), 1560-1570.

李妮娜,李建^*,2017: 中國西南復雜地形區降水觀測年際變化代表性問題初步分析. 高原氣象,36(1), 119-128.

Li, J.^*, Chen, T., & Li, N. (2017). Diurnal variation of summer precipitation across the central Tian Shan Mountains. Journal of Applied Meteorology and Climatology, 56(6), 1537-1550.

Zhao, S., Li, J.^*, Yu, R., & Chen, H. (2015). Recent reversal of the upper-tropospheric temperature trend and its role in intensifying the East Asian summer monsoon. Scientific Reports, 5(1), 11847.

Sun, W., Li, J.^*, Yu, R., & Yuan, W. (2015). Two major circulation structures leading to heavy summer rainfall over central North China. Journal of Geophysical Research: Atmospheres, 120(10), 4466-4482.

Li, J., Yu, R.^*, Yuan, W., Chen, H., Sun, W., & Zhang, Y. (2015). Precipitation over E ast A sia simulated by NCAR CAM5 at different horizontal resolutions. Journal of Advances in Modeling Earth Systems, 7(2), 774-790.

Yu, R., Li, J.^*, Zhang, Y., & Chen, H. (2015). Improvement of rainfall simulation on the steep edge of the Tibetan Plateau by using a finite-difference transport scheme in CAM5. Climate Dynamics, 45, 2937-2948.

Li, J.,^* & Yu, R. (2014). Characteristics of cold season rainfall over the Yungui Plateau. Journal of Applied Meteorology and Climatology, 53(7), 1750-1759.

Li, J., & Yu, R.^* (2014). A method to linearly evaluate rainfall frequency–intensity distribution. Journal of Applied Meteorology and Climatology, 53(4), 928-934.

Zhang, Y., & Li, J.^*(2013). Shortwave cloud radiative forcing on major stratus cloud regions in AMIP-type simulations of CMIP3 and CMIP5 models. Advances in Atmospheric Sciences, 30, 884-907.

李建,宇如聰,孫溦,2013:從小時尺度考察中國中東部極端降水的持續性和季節特征. 氣象學報, 71(4), 652-659.

李建,宇如聰,孫溦,2013:中國大陸地區小時極端降水閾值的計算與分析. 暴雨災害, 32(1), 11-16.

Li, J.^*, Yu, R., & Sun, W. (2013). Duration and seasonality of hourly extreme rainfall in the central eastern China. Acta Meteorologica Sinica, 27(6), 799-807.

Li, J., Yu, R.^*, Yuan, W., & Chen, H. (2011). Early spring dry spell in the southeastern margin of the Tibetan Plateau. Journal of the Meteorological Society of Japan. Ser. II, 89(1), 1-13.

Li, J., Yu, R.^*, Yuan, W., & Chen, H. (2011). Changes in duration-related characteristics of late-summer precipitation over eastern China in the past 40 years. Journal of Climate, 24(21), 5683-5690.

李建,宇如聰,陳昊明,原韋華,2010: 對三套再分析資料中國大陸地區夏季降水量的評估分析. 氣象, 36(12), 1-9.

Yu, R., Li, J.,^* & Chen, H. (2009). Diurnal variation of surface wind over central eastern China. Climate dynamics, 33, 1089-1097.

Li, J.^*, Yu, R., & Zhou, T. (2008). Seasonal variation of the diurnal cycle of rainfall in southern contiguous China. Journal of Climate, 21(22), 6036-6043.

Li, J., Yu, R.^*, & Zhou, T. (2008). Teleconnection between NAO and climate downstream of the Tibetan Plateau. Journal of Climate, 21(18), 4680-4690.

Li, J., Yu, R.^*, & Wang, J. (2008). Diurnal variations of summer precipitation in Beijing. Chinese Science Bulletin, 53(12), 1933-1936.

李建, 宇如聰, 王建捷, 2008: 北京市夏季降水的日變化特征. 科學通報, 53(7), 829-832.

李建, 周天軍, 宇如聰, 2007: 利用大氣環流模式模擬北大西洋海溫異常強迫響應. 大氣科學, 31(4), 561-570.

Li, J., Yu, R.^*, Zhou, T., & Wang, B. (2005). Why is there an early spring cooling shift downstream of the Tibetan Plateau?. Journal of Climate, 18(22), 4660-4668.

出版書籍

宇如聰, 李建, 陳昊明, 原韋華. 中國降水日變化. 科學出版社🤹🏿，2021

  #以上信息由本人提供，更新時間🦵🏽：2024/10/10