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李曉峯

(中山大學大氣科學學院副教授)

鎖定
中山大學大氣科學學院副教授博士生導師,中山大學“百人計劃”引進人才 [1] 中國科學院研究生院流體力學專業博士。主要研究方向為:山地-高原氣候動力學、全球極端降水以及數值模擬等。在青藏高原上空聯合發現、命名了一個新的大氣環流系統。已發表論文27篇 [1] H-index為9 [2]  ,國際學術會議特別邀請報告3次 [1]  。擔任Environmental Research Letters, Scientific Reports, Journal of Climate, Climate Dynamics, Geophysical Research Letters等多個氣候學雜誌審稿人 [1]  ,為ELSEVIER圖書出版稿件審稿人 [1] 
中文名
李曉峯
國    籍
中國
民    族
出生地
湖北宜昌
學位/學歷
博士
專業方向
大氣科學
職    稱
副教授

目錄

  1. 1 教育經歷
  2. 2 工作經歷
  1. 3 研究方向
  2. 4 研究興趣
  1. 5 學術兼職
  2. 6 發表論文

李曉峯教育經歷

李曉峯工作經歷

  • 副教授,博士生導師:2020年8月-,中山大學大氣科學學院,主攻山地-高原氣候動力學、全球極端降水和數值模擬方向。
  • 副研究員(Research Associate):2015年7月至2020年7月,英國紐卡斯爾大學(Newcastle University)工程學院(School of Engineering, previous name was “School of Civil Engineering and Geosciences”),主要從事青藏高原/山地天氣氣候動力學及全球極端降水的相關研究。
  • 助理研究員:2009年1月至2015年6月,中國科學院大氣物理研究所大氣科學和地球流體力學數值模擬國家重點實驗室,主要從事高緯度環狀模動力學及熱帶海氣相互作用方面的研究工作。
  • 訪問學者:2010年3月至2010年6月,美國阿拉斯加大學北極國際研究中心(IARC),從事環狀模動力學方面的研究工作。
  • 訪問學者:2011年10月至2012年9月,澳大利亞聯邦科學和工業研究組織(CSIRO)數學與信息科學研究所(CMIS),從事熱帶海氣相互作用方面的研究工作。

李曉峯研究方向

山地-高原氣候動力學、全球極端降水以及數值模擬等

李曉峯研究興趣

  • 山地及青藏高原天氣氣候動力學
  • 區域氣候變化及全球變暖
  • 極地氣候及環狀模動力學
  • 全球水循環及極端降水
  • 大氣環流數值模擬及預測
  • 熱帶海氣相互作用
  • 季風及氣候熱力學
主攻山地-高原氣候動力學、全球極端降水和數值模擬方向。

李曉峯學術兼職

  • 終生會員(Life Member,2011-),美國地球物理聯合會(American Geophysical Union,AGU) 。
  • 終生會員(Life Member,2015-), 歐洲地球科學聯合會(European Geosciences Union,EGU)。
  • 國際核心期刊審稿人(Expert Journal Reviewer),包括 Environmental Research Letters, 和Scientific Reports,Journal of Climate, Climate Dynamics, Geophysical Research Letters等。
  • 愛思唯爾圖書出版社圖書稿件審稿人(Expert Book Proposal Reviewer of ELSEVIER)。
  • 業務級軟件和程序包提供: Software Packages Writing for USA National Oceanic and Atmospheric Administration (NOAA, in 2009) and China Meteorology Administration (CMA, in 2011) for their daily monitoring of the South American Summer Monsoon index and East Asia Summer Monson index. These software packages are still in use.

李曉峯發表論文

2020
  1. Li, X.-F., S. Blenkinsop, R. Barbero, J. Yu, E. Lewis, G. Lenderink, S. Guerreiro, S. Chan, Y. Li, H. Ali, R. Villalobos Herrera, E. Kendon, and H. J. Fowler, 2020: Global distribution of the intensity and frequency of hourly precipitation and their responses to ENSO. Climate Dynamics, 54, pages4823–4839. Doi: 10.1007/s00382-020-05258-7.
  2. Yu J, Li X-F, Lewis E, Blenkinsop S, and Fowler HJ, 2020: UKGrsHP: a UK high-resolution gauge–radar–satellite merged hourly precipitation analysis dataset. Climate Dynamics. Doi: 10.1007/s00382-020-05144-2.
  3. Kong Q, Guerreiro SB, Blenkinsop S, Li X-F, and Fowler HJ, 2020: Increases in summertime concurrent drought and heatwave in Eastern China. Weather and Climate Extremes, 28, 10024
  4. Yafei Li, Daniel Argueso, Stephen Blenkinsop, Jason Evans, Geert Lenderink, Xiaodong Yan, Selma Guerreiro, Elizabeth Lewis, Xiao-Feng Li. 2019: Strong intensification of hourly rainfall extremes by urbanization. Geophysical Research Letters. Doi:https://doi.org/10.1029/2020GL088758.
2019
  1. Li, X-F, H. J. Fowler, J. Yu, N. Forsythe, S. Blenkinsop. 2019: Thermodynamic Controls of the Western Tibetan Vortex on Tibetan Air Temperature. Climate Dynamics. DOI: 10.1007/s00382-019-04785-2.
  2. Champion, A.J., Blenkinsop, S., Li, X-F, Fowler, H.J. 2019: Synoptic-scale precursors of extreme UK summer 3-hourly rainfall. Journal of Geophysical Research. DOI: 10.1029/2018JD029664.
  3. Lewis, E., Fowler, H.J., Alexander, L., Dunn, R., McClean, F., Barbero, R., Guerreiro, S., Li, X-.F., Blenkinsop, S. GSDR: A global sub-daily rainfall dataset. Journal of Climate. Doi: https://doi.org/10.1175/JCLI-D-18-0143.1.
  4. Ding, R., Li, J., Tseng, Y-H., Sun, C., Nan, L., Xing, Li, X-F, 2019: Linking the North American dipole to the Pacific meridional mode. Journal of Geophysical Research. Doi: https://doi.org/10.1029/2018JD029692.
  5. Barbero, R., H. J. Fowler, S. Blenkinsop, S. Westra, V. Moron, E. Lewis, S. Chan, G. Lenderink, E. Kendon, S. Guerreiro, X.-F. Li, R. Villalobos, H. Ali, and V. Mishra, 2019: A synthesis of hourly and daily precipitation extremes in different climatic regions. Weather and Climate Extremes, 26, 100219.
  6. Pritchard DMW, Forsythe N, Fowler HJ, O’Donnell GM, and Li X-F, 2019: Evaluation of Upper Indus near-surface climate representation by WRF in the High Asia Refined Analysis. Journal of Hydrometeorology. 10.1175/JHM-D-18-0030.1.
2018
  1. Li, X-F, H. J. Fowler, N. Forsythe, S. Blenkinsop. 2018: The Karakoram Vortex over the Western Tibetan Plateau: Seasonal and Inter-Annual variability. Climate Dynamics. DOI: 10.1007/s00382-018-4118-2.
  2. Blenkinsop S, Fowler HJ, Barbero R, Chan SC, Guerreiro SB, Kendon E, Lenderink G, Lewis E, Li X-F, Westra S, Alexander L, Allan RP, Berg P, Dunn RJH, Ekström M, Evans J, Holland G, Jones R, Kjellström E, Klein-Tank A, Lettenmaier D, Mishra V, Prein AF, Sheffield J, Tye MR. 2018: The INTENSE project: using observations and models to understand the past, present and future of sub-daily rainfall extremes. Advances in Science & Research, 15, 117–126. DOI: https://doi.org/10.5194/asr-15-117-2018.
  3. Guerreiro SB, Fowler HJ, Barbero R, Westra S, Lenderink G, Blenkinsop S, Lewis E, and Li, X-F,2018: Detection of continental-scale intensification of hourly rainfall extremes. Nature Climate Change, 8, 803-807. DOI: 10.1038/s41558-018-0245-3.
2017
  1. N. Forsythe, H. J. Fowler, Xiao-Feng Li, S. Blenkinsop and D. Pritchard. 2017: Regional atmospheric circulation variability drives the Karakoram anomaly. Nature Climate Change, 7, 664–670. DOI: 10.1038/NCLIMATE3361.
2015
  1. Xiao-Feng Li, J. Li, Y. Li. 2015: Recent Winter Precipitation Increase in middle-lower Yangtze River Valley since the late 1970s: A response to warming in tropical Indian Ocean. J. Climate, 28(9), 3857–3879. DOI: 10.1175/JCLI-D-14-00701.1.
  2. Zheng, F., J. Li, L. Wang, F. Xie, and Xiao-Feng Li, 2015: Cross-Seasonal Influence of the December–February Southern Hemisphere Annular Mode on March–May Meridional Circulation and Precipitation. J. Climate, 28(17), 6859-6881.
  3. Xiao-Feng Li. 2015:Review on the Introduce and Debates of the Annular Modes. Advances in Earth Science (In Chinese). 30(3), 367-384.
2014
  1. Xiao-Feng Li, J. Li, X. Zhang and C. Sun, 2014: Role of Ferrel cell in daily variability of Northern Hemisphere Annular Mode, Chinese Science Bulletin, 59(27), 3457-3464. CSB-2013-1144.R6.
  2. Yu, J., Y. Liu and Xiao-Feng Li, 2014: Connections between the Dominant Modes of Westerly over the Upstream Region of Qinghai-Xizang Plateau and the Regional Precipitation of China and NAO in Winter, Plateau Meteorology (In Chinese), 33(4), 877-886.
2013
  1. Xiao-Feng Li, J. Yu, and Y. Li, 2013: Recent Northern Australia summer rainfall increasing and surface cooling since the late 1970s: A Response to Warming in the Tropical Western Pacific, J. Climate, 26(18), 7221–7239, doi: 10.1175/JCLI-D-12-00786.1.
  2. Xiao-Feng Li, J. Li, and X. Zhang, 2013: A Two-way Stratosphere–Troposphere Coupling of Submonthly Zonal-Mean Circulations in the Arctic, Advances in Atmospheric Sciences, 30(6), 1771-1785. doi: 10.1007/s00376-013-2210-4.
2012 and Before
  1. Xiao-Feng Li, and J. Li, 2012: Analysis of the Quasi-geostrophic Adjustment Process of the Southern Hemisphere Annular Mode. Chinese J. Atmos. Sci. (In Chinese), 36(4), 755-768.
  2. Xiao-Feng Li, and J. Li, 2011: Meridional and vertical propagation characteristics of submonthly Northern Hemisphere Annual Mode. Acta Meteor. Sin. (In Chinese), 69(6), 1046-1061.
  3. Xiao-Feng Li, and J. Li, 2010: Propagation characteristics circulation anomalies of sub-monthly Southern Hemisphere annular mode. Chinese J. Atmos. Sci. (In Chinese), 34(6), 1099-1113.
  4. Xiao-Feng Li, and J. Li, 2009: Main submonthly timescales of Northern and Southern Hemisphere annual modes. Chinese J. Atmos. Sci. (In Chinese), 33(2), 215-231.
  5. Xiao-Feng Li, P. Guo, L. Dong. Onset Process of Summer Somali Jet and Possible Influenced Mechanism. Journal of Nanjing Institute of Meteorology (In Chinese), 2006, 29(5): 599-605.
  6. L. Dong, P. Guo, Xiao-Feng Li. Relationship between Activity of Transient Waves and Excessive/Deficit Summer Rain in Changjiang-Huaihe River Basin, Journal of Nanjing Institute of Meteorology (In Chinese), 2006, 29(4): 470-476.
參考資料