团队简介

中国科学院大气物理研究所孙建华研究员团队致力于东亚地区的中小尺度天气系统的活动特征与发生发展机制的研究，团队目前有研究员2人，副研究员1人，研究助理1人，研究生8人。 我们的研究方向有：

• 对流触发的机理
• 中尺度对流系统的活动特征、组织结构与发展机制
• 中尺度涡旋的结构特征、能量与水汽收支
• 地形与下垫面对对流系统的影响
  
  
  

团队成员

孙建华

研究员

中国科学院大气物理研究所研究员，博士生导师，中国科学院大学岗位教授，中国科学院云降水物理与强风暴重点实验室副主任，南京信息工程大学气象灾害预报预警与评估协同创新中心成员。主要研究我国的灾害天气，包括暴雨、强对流、暴雪（包括冻雨）和沙尘暴等，在国内外重要学术期刊上发表论文200余篇（SCI收录70余篇），并担任《气象》副主编，《热带气象学报》及Advance in Atmospheric Sciences责任编委，《大气科学》、《气象学报》、《暴雨灾害》编委，先后获批国家自然科学基金8项。在中国科学院大学讲授“中小尺度天气动力学”课程。CV

傅慎明

研究员

中国科学院大气物理研究所研究员，博士生导师，中国科学院青年促进会成员。主要从事中尺度气象学、大气动力学、多尺度相互作用的研究，发表学术论文100余篇（SCI收录40余篇），并担任《大气科学》期刊编委，Sustainability期刊编辑、Frontiers in Earth Science期刊客座编辑，先后主持国家自然科学基金青年项目1项、面上项目2项，并作为子课题负责人参与国家重点研发项目3项。

张元春

副研究员

中国科学院大气物理研究所副研究员，硕士生导师，中国科学院青年促进会成员。主要从事中尺度气象学和强对流天气的研究，发表学术论文30余篇（SCI收录10余篇），主持国家自然科学基金青年项目1项、面上项目2项。CV

汪汇洁

工程师

工程师，长期从事中尺度海气耦合数值预报技术、海气资料同化技术的研究。某部航空数值预报业务系统工程骨干，重点海区中尺度海气耦合数值预报分系统负责人，拥有12年航站气象预报一线业务经验。

付亚男
博士研究生
CV

高原
博士研究生

黄婷婷
博士研究生
CV

黄玥
博士研究生

席雪洁
硕士研究生

肖雪
硕士研究生

程宝洋
硕士研究生

苏衍陆
博士研究生

论文

ASL 2022

Jianhua Sun*, Shenming Fu, Huijie Wang, Yuanchun Zhang, Yun Chen, Aifang Su, Yaqiang Wang, Huan Tang, Ruoyun Ma. (2022). Primary characteristics of the extreme heavy rainfall event over Henan in July 2021. Atmospheric Science Letters, 24(1), e1131. https://doi.org/10.1002/asl.1131

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科学贡献:

• Favorable configurations of various synoptic weather systems acted as crucial background conditions for the occurrence of the “21.7” HRE.
• A 21-h long-lived mesoscale convective vortex (MCV), mainly located in the middle and lower troposphere west of Zhengzhou city, was a key system that produced the extreme hourly rainfall of 201.9 mm/h.
• Lagrangian moisture transport analysis showed that moisture for the extreme heavy rainfall in Zhengzhou on July 20 mainly came from levels below 2200 m, driven by airflows on the peripheries of tropical cyclones IN-FA and CEMPAKA.

JGR-Atmos 2022

Shenming Fu*, Yuanchun Zhang, Huijie Wang, Huan Tang, Wanli Li, Jianhua Sun. (2022). On the evolution of a long-lived mesoscale convective vortex that acted as a crucial condition for the extremely strong hourly precipitation in Zhengzhou. Journal of Geophysical Research: Atmospheres, 127(11), e2021JD036233. https://doi.org/10.1029/2021JD036233

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科学贡献:

• The appearance of a long-lived (21-hr) northwestward-moving mesoscale convective vortex (MCV) and its interaction with its parent mesoscale convective system (MCS) was crucial to produce the extremely strong heavy rainfall in Zhengzhou.
• The backward trajectory analysis indicates that air particles in the lower troposphere beneath the MCS over Henan contributed mostly to the MCV’s formation. These air particles experienced notable ascending motions and condensation with their strong cyclonic vorticity mostly produced 1-hr before the MCV’s formation.
• Vorticity budget denotes that strong upward transport of cyclonic vorticity and convergencerelated vertical stretching, both of which were mainly due to convection associated with the parent MCS, acted as dominant factors for the MCV’s formation.

AAS 2022

Yuanchun Zhang*, Jianhua Sun, Ruyi Yang, Ruoyun Ma. (2022). Initiation and evolution of long-Lived eastward-propagating mesoscale convective systems over the second-step terrain along Yangtze-Huaihe River Valley. Advances in Atmospheric Sciences, 39(5), 763–781. https://doi.org/10.1007/s00376-022-1303-3

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科学贡献:

• Eight representative long-lived eastward-propagating MCSs are selected for model-based sensitivity testing to investigate the initiation and evolution of these types of MCSs as well as their impact on downstream areas.
• Convection forms in the region downstream of a shortwave trough typified by persistent southwesterly winds in the low-to midtroposphere.
• Upon merging with other convective systems, moist convection develops into an MCS, which propagates eastward under the influence of midtropospheric westerlies, and moves out of the second-step terrain.
• In the absence of eastward-propagating MCSs, moist convection and mesoscale vortices still appear in the plains, but the vortex strength and precipitation intensity are significantly weakened.

2024

• Yang X, Sun J, Luo S (2024) Preconvective environments of severe convective winds over North China and South China. Atmospheric Research. https://doi.org/10.1016/j.atmosres.2024.107384 Link

• Wei Q, Sun J, Fu S, Zhang Y, Wang X (2024) Spatiotemporal Characteristics of Rainfall over Different Terrain Features in the Middle Reaches of the Yangtze River Basin during the Warm Seasons of 2016–20. Advances in Atmospheric Sciences 41:915-936. https://doi.org/10.1007/s00376-023-3034-5 Link

• Huang T, Fu S, Wang Z, Zhao S, Sun J, Zhang Y, Wang S (2024) A Case Study on the Rainstorm-Producing Mesoscale Vortices in Central-Eastern China. Journal of Geophysical Research: Atmospheres 129(5): e2023JD039573. https://doi.org/10.1029/2023JD039573 Link

• Fu Y, Sun J, Wu Z, Chen T, Song X, Sun S, Fu S (2024) Formation Mechanisms of the Extreme Rainfall and Mesoscale Convective Systems over South China during the Dragon Boat Rainy Season of 2022. Asia-Pacific Journal of Atmospheric Sciences. https://doi.org/10.1007/s13143-024-00357-5 Link

• 杨雯婷, 孙建华, 傅慎明, 赵黎京 (2024) 1981～2020 年华南地区区域性极端降水事件研究. 大气科学 48(3) 906-922. https://doi.org/10.3878/j.issn.1006-9895.2211.22056 Link

• 孙建华, 周玉淑, 傅慎明, 杨帅, 张元春, 汪汇洁, 黄玥 (2024) 近十年我国涡旋系统的研究进展. 大气科学. https://doi.org/10.3878/j.issn.1006-9895.2311.23323 Link

2023

• Wei Q, Sun J, Zhang Y, Liu D, Sun Z, Liu M, Ma Z (2024) Statistical Characteristics of Thunderstorm Activity in the Middle Reaches of the Yangtze River Basin Based on a Five-Year Cloud-To-Ground Lighting Data Set. Geophysical Research Letters 50(24): e2023GL106498. https://doi.org/10.1029/2023GL106498 Link

• Fu Y, Sun J, Fu S, Zhang Y, Ma Z (2023) Initiations of Mesoscale Convective Systems in the Middle Reaches of the Yangtze River Basin Based on FY-4A Satellite Data: Statistical Characteristics and Environmental Conditions. Journal of Geophysical Research: Atmospheres 128(22):e2023JD038630. https://doi.org/10.1029/2023JD038630 Link PDF

• Fu Y, Sun J, Fu S, Zhang Y (2023) Comparison between warm-sector and frontal heavy rainfall events in South China and the objective classification of warm-sector heavy rainfall events. Meteorology and Atmospheric Physics 135(1):11. https://doi.org/10.1007/s00703-022-00949-8 Link PDF

• Ma Z, Li Z, Li J, Min M, Sun J, Wei X, Schmit TJ, Cucurull L (2023) An enhanced storm warning and nowcasting model in pre-convection environments. Remote Sensing 15(10):2672. https://doi.org/10.3390/rs15102672 Link PDF

• Yang W, Fu S, Sun J, Wang H, Fu Y, Zeng C (2023) Moisture transport and associated background circulation for the regional extreme precipitation events over South China in recent 40 Years. Journal of Tropical Meteorology 29(1):101–114. https://doi.org/10.46267/j.1006-8775.2023.008 Link PDF

• Zhang Y, Lu R, Sun J, Yang X (2023) Organizational modes and environmental conditions of the severe convective weathers produced by the mesoscale convective systems in South China. Journal of Tropical Meteorology 29(1):26–38. https://doi.org/10.46267/j.1006-8775.2023.003 Link PDF

• 汤欢, 傅慎明, 孙建华, 周象贤 (2023) 基于高分辨率再分析风场的高原涡三维识别技术及应用. 大气科学 47(3):698–712 Link

• 张元春, 孙建华, 傅慎明, 汪汇洁, 付亚男, 汤欢, 魏倩 (2023) “21·7”河南特大暴雨的中尺度系统活动特征. 大气科学 47(4):1196–1216 Link

• 周晓敏, 田付友, 郑永光, 孙建华, 王超 (2023). 中国短时强降雨对暴雨的贡献特征. 气象, 49(3), 267–278. Link PDF

2022

• Chen H, Xu W, Liu N, Sun J, Fu J (2022) Climatologies of mesoscale convective systems over China observed by spaceborne radars. Monthly Weather Review 150:2697–2717. https://doi.org/10.1175/MWR-D-22-0002.1 Link PDF

• Fu S, Tang H, Sun J, Zhao T, Li W (2022) Historical rankings and vortices’ activities of the extreme Mei-yu seasons: Contrast 2020 to previous Mei-yu seasons. Geophysical Research Letters 49(2):e2021GL096590. https://doi.org/10.1029/2021GL096590 Link PDF

• Fu S, Zhang Y, Wang H, Tang H, Li W, Sun J (2022) On the evolution of a long-lived mesoscale convective vortex that acted as a crucial condition for the extremely strong hourly precipitation in Zhengzhou. Journal of Geophysical Research: Atmospheres 127(11):e2021JD036233. https://doi.org/10.1029/2021JD036233 Link PDF

• Fu S, Zhang J, Luo Y, Yang W, Sun J (2022) Energy paths that sustain the warm-sector torrential rainfall over South China and their contrasts to the frontal rainfall: A case study. Advances in Atmospheric Sciences 39(9):1519–1535. https://doi.org/10.1007/s00376-021-1336-z Link PDF

• Jiang L, Fu S, Sun J, Fu R, Li W, Zhao S, Wang H (2022) Surface wind and vertical extent features of the explosive cyclones in the Northern Hemisphere based on the ERA-I reanalysis data. International Journal of Climatology 42(2):993–1014. https://doi.org/10.1002/joc.7284 Link

• Sun J, Fu S, Wang H, Zhang Y, Chen Y, Su A, Wang Y, Tang H, Ma R (2022) Primary characteristics of the extreme heavy rainfall event over Henan in July 2021. Atmospheric Science Letters 24(1):e1131. https://doi.org/10.1002/asl.1131 Link PDF

• Tian F, Zhang X, Xia K, Sun J, Zheng Y (2022) Probability forecasting of short-term short-duration heavy rainfall combining ingredients-based methodology and fuzzy logic approach. Atmosphere 13(7):1074. https://doi.org/10.3390/atmos13071074 Link PDF

• Zhang Y, Sun J, Yang R, Ma R (2022) Initiation and evolution of long-Lived eastward-propagating mesoscale convective systems over the second-step terrain along Yangtze-Huaihe River Valley. Advances in Atmospheric Sciences 39(5):763–781. https://doi.org/10.1007/s00376-022-1303-3 Link PDF

• 田付友, 张小玲, 曹艳察, 孙建华, 郑永光, 杨新林, 韩旭卿, 麦子 (2022) 中国中低海拔地区三类强对流天气环境条件的基本气候特征. 高原气象 41(6):1446–1459 Link PDF

• 杨雯婷, 傅慎明, 孙建华, 郑飞, 卫捷 (2022) 近32年泰国降水的主要变化趋势研究. 大气科学 46(2):263–274 Link PDF

2021

• Clark R T, Dong X, Ho C, Sun J, Yuan H, Takemi T (2021). Preface to the special issue on summer 2020: Record rainfall in Asia — mechanisms, predictability and impacts. Advances in Atmospheric Sciences, 38(12), 1977–1979. https://doi.org/10.1007/s00376-021-1010-5 Link PDF

• Fu S, Tang H, Li Y, Ma H, Sun J (2021) On the relationship of a low-level jet and the formation of a heavy-rainfall-producing mesoscale vortex over the Yangtze River Basin. Atmosphere 12(2):156. https://doi.org/10.3390/atmos12020156 Link PDF

• Fu S, Mai Z, Sun J, Li W, Zhong Q, Sun J, Zhang Y (2021) A semi-idealized modeling study on the long-lived eastward propagating mesoscale convective system over the Tibetan Plateau. Science China Earth Sciences 64(11):1996–2014. https://doi.org/10.1007/s11430-020-9772-1 Link PDF

• Jiang L, Yu H, Dong L, Fu S, Sun J, Zheng F, Yi K, Ma H (2021) On the vertical extending of the explosive extratropical cyclone: A case study. Atmospheric Science Letters 22(5):e1028. https://doi.org/10.1002/asl.1028 Link PDF

• Li W, Bi X, Sheng L, Luo Y, Sun J (2021). Modulations of synoptic weather patterns on warm-sector heavy rainfall in South China: Insights from high-density observations with principal component analysis. Frontiers in Earth Science, 9. https://doi.org/10.3389/feart.2021.678230 Link PDF

• Liu C, Sun J, Yang X, Jin S, Fu S (2021) Evaluation of ECMWF precipitation predictions in China during 2015–18. Weather and Forecasting 36(3):1043–1060. https://doi.org/10.1175/WAF-D-20-0143.1 Link PDF

• Ma R, Feng S, Jin S, Sun J, Fu S, Sun S, Han H (2021) Statistical characteristics and environmental conditions of the warm-season severe convective events over North China. Atmosphere 12(1):52. https://doi.org/10.3390/atmos12010052 Link PDF

• Ma R, Sun J, Yang X (2021) An eight-year climatology of the warm-season severe thunderstorm environments over North China. Atmospheric Research 254:105519. https://doi.org/10.1016/j.atmosres.2021.105519 Link PDF

• Ma R, Sun J, Yang X (2021). A 7-Yr climatology of the initiation, decay, and morphology of severe convective storms during the warm season over North China. Monthly Weather Review, 149(8), 2599–2612. https://doi.org/10.1175/MWR-D-20-0087.1 Link PDF

• Mai Z, Fu S, Sun J, Hu L, Wang X (2021) Key statistical characteristics of the mesoscale convective systems generated over the Tibetan Plateau and their relationship to precipitation and southwest vortices. International Journal of Climatology 41(S1):E875–E896. https://doi.org/10.1002/joc.6735 Link PDF

• Wang H, Sun J, Fu S, Zhang Y (2021) Typical circulation patterns and associated mechanisms for persistent heavy rainfall events over Yangtze-Huaihe River Valley during 1981–2020. Advance in Atmospheric Sciences 38(12):2167–2182. https://doi.org/10.1007/s00376-021-1194-8 Link PDF

• Yang W, Fu S, Sun J, Zheng F, Wei J, Ma Z (2021) Comparative evaluation of the performances of TRMM-3B42 and climate prediction centre morphing technique (CMORPH) precipitation estimates over Thailand. Journal of the Meteorological Society of Japan Ser II 99(6):1525–1546. https://doi.org/10.2151/jmsj.2021-074 Link PDF

• Zhang Y, Sun J, Zhu L, Tang H, Jin S, Liu X (2021) Comparison of two types of persistent heavy rainfall events during sixteen warm seasons in the Sichuan Basin. Atmospheric and Oceanic Science Letters 14(6):100094. https://doi.org/10.1016/j.aosl.2021.100094 Link PDF

• 傅慎明, 麦子, 孙建华, 李万莉, 钟琦, 孙家仁, 张元春 (2021). 长生命史青藏高原东移对流系统的半理想模拟研究. 中国科学:地球科学, 51(12), 2079–2097. Link PDF

• 刘瑞鑫, 孙建华, 傅慎明 (2021). 不同类型华南暖区暴雨过程的环流特征. 气候与环境研究, 26(4), 359–373. https://doi.org/10.3878/j.issn.1006-9585.2021.20105 Link PDF

• 李国平, 孙建华, 王晓芳 (2021). 中国西南山地突发性暴雨特征与机理研究的新进展. 气象科技进展, 11(4), 57–63. Link PDF

2020

• Feng S, Jin S, Fu S, Sun J, Zhang Y (2020) Formation of a kind of heavy-precipitation-producing mesoscale vortex around the Sichuan Basin: An along-track vorticity budget analysis. Atmospheric Science Letters 21(1):e949. https://doi.org/10.1002/asl2.949 Link PDF

• Fu S, Jin S, Shen W, Li D, Liu B, Sun J (2020) A kinetic energy budget on the severe wind production that causes a serious state grid failure in Southern Xinjiang China. Atmospheric Science Letters 21(7):e977. https://doi.org/10.1002/asl.977 Link PDF

• Fu S, Zhang J, Tang H, Jiang L, Sun J (2020) A new mesoscale-vortex identification metric: restricted vorticity and its application. Environmental Research Letters 15(12):124053. https://doi.org/10.1088/1748-9326/abcac6 Link PDF

• Jiang L, Fu S, Sun J (2020) New method for detecting extratropical cyclones: the eight-section slope detecting method. Atmospheric and Oceanic Science Letters 13(5):436–442. https://doi.org/10.1080/16742834.2020.1754124 Link PDF

• Jin S, Feng S, Shen W, Fu S, Jiang L, Sun J (2020) Energetics characteristics accounting for the low-level wind’s rapid enhancement associated with an extreme explosive extratropical cyclone over the western North Pacific Ocean. Atmospheric and Oceanic Science Letters 13(5):426–435. https://doi.org/10.1080/16742834.2020.1763153 Link PDF

• Meng Y, Sun J, Zhang Y, Fu S (2020) A 10-year climatology of mesoscale convective systems and their synoptic circulations in the southwest mountain area of China. Journal of Hydrometeorology 22(1):23–41. https://doi.org/10.1175/JHM-D-20-0167.1 Link PDF

• Yang R, Zhang Y, Sun J, Li J (2020) The comparison of statistical features and synoptic circulations between the eastward-propagating and quasi-stationary MCSs during the warm season around the second-step terrain along the middle reaches of the Yangtze River. Science China Earth Sciences 63(8):1209–1222. https://doi.org/10.1007/s11430-018-9385-3 Link PDF

• Yang Y, Sun J, Zhu Y, Zhang T (2020) Examination of the impacts of ice nuclei aerosol particles on microphysics, precipitation and electrification in a 1.5D aerosol-cloud bin model. Journal of Aerosol Science 140:105440. https://doi.org/10.1016/j.jaerosci.2019.105440 Link PDF

• Zhang X, Sun J, Zheng Y, Zhang Y, Ma R, Yang X, Zhou K, Han X (2020) Progress in severe convective weather forecasting in China since the 1950s. Journal of Meteorological Research 34(4):699–719. https://doi.org/10.1007/s13351-020-9146-2 Link PDF

• Zheng L, Sun J, Qiu X, Yang Z (2020) Five-year climatology of local convections in the dabie mountains. Atmosphere 11(11). https://doi.org/10.3390/atmos11111246 Link PDF

• Zheng L, Sun J, Zhang J, Qiu X, Yao C (2020) Squall line and its vertical motion under different moisture profiles in Eastern China. Journal of Tropical Meteorology 26(3):321–335. https://doi.org/10.46267/j.1006-8775.2020.029 Link PDF

• 麦子, 傅慎明, 孙建华 (2020). 近16年暖季青藏高原东部两类中尺度对流系统(MCS)的统计特征. 气候与环境研究, 25(4), 385–398. Link PDF

• 汤欢, 傅慎明, 孙建华, 麦子, 靳双龙, 张元春 (2020). 一次高原东移MCS与下游西南低涡作用并产生强降水事件的研究. 大气科学, 44(6), 1275–1290. Link PDF

2019

• Fu S, Mai Z, Sun J, Tang H (2019). On the physical significance and use of a set of horizontal and vertical helicity budget equations. Atmospheric and Oceanic Science Letters, 12(6), 417–423. https://doi.org/10.1080/16742834.2019.1661755 Link PDF

• Fu S, Mai Z, Sun J, Li W, Ding Y, Wang Y (2019). Impacts of convective activity over the Tibetan Plateau on Plateau vortex, southwest vortex, and downstream precipitation. Journal of the Atmospheric Sciences, 76(12), 3803–3830. https://doi.org/10.1175/JAS-D-18-0331.1 Link PDF

• Li W, Xia R, Sun J, Fu S, Jiang L, Chen B, Tian F (2019). Layer-wise formation mechanisms of an entire-yroposphere-thick extratropical cyclone that induces a record-breaking catastrophic rainstorm in Beijing. Journal of Geophysical Research: Atmospheres, 124(20), 10567–10591. https://doi.org/10.1029/2019JD030868 Link

• Meng Z, Zhang F, Luo D, Tan Z, Fang J, Sun J, et al. (2019). Review of Chinese atmospheric science research over the past 70 years: Synoptic meteorology. Science China Earth Sciences, 62(12), 1946–1991. https://doi.org/10.1007/s11430-019-9534-6 Link PDF

• Sun J, Zhang Y, Liu R, Fu S, Tian F (2019). A review of research on warm-sector heavy rainfall in China. Advances in Atmospheric Sciences, 36(12), 1299–1307. https://doi.org/10.1007/s00376-019-9021-1 Link PDF

• Yang R, Zhang Y, Sun J, Fu S, Li J (2019). The characteristics and classification of eastward-propagating mesoscale convective systems generated over the second-step terrain in the Yangtze River Valley. Atmospheric Science Letters, 20(1), e874. https://doi.org/10.1002/asl.874 Link PDF

• Zhang Y, Fu S, Sun J, Fu R, Jin S, Ji D (2019). A 14-year statistics-based semi-idealized modeling study on the formation of a type of heavy rain–producing southwest vortex. Atmospheric Science Letters, 20(5), e894. https://doi.org/10.1002/asl.894 Link PDF

• 刘瑞鑫, 孙建华, 陈鲍发 (2019). 华南暖区暴雨事件的筛选与分类研究. 大气科学, 43(1), 119–130. Link PDF

• 姜立智, 傅慎明, 孙建华, 刘靓珂, 沈新勇 (2019). 2014年11月上旬西北太平洋一次极端强度爆发气旋的数值模拟和分片位涡反演分析. 气候与环境研究, 24(2), 152–168. Link PDF

• 孟亚楠, 孙建华, 卫捷, 赵琳娜 (2019). 1981～2015年华北地区持续霾事件的特征及其环流分类研究. 气候与环境研究, 24(3), 341–358. Link

• 张元春, 李娟, 孙建华 (2019). 青藏高原热力对四川盆地西部一次持续性暴雨影响的数值模拟. 气候与环境研究, 24(1), 37–49. Link PDF

• 赵思雄, 孙建华 (2019). 我国暴雨机理与预报研究进展及其相关问题思考. 暴雨灾害, 38(5), 422–430. Link PDF

• 鲁蓉, 孙建华, 李德帅 (2019). 初值水汽场对华南春季一次强飑线触发和维持影响的数值试验. 热带气象学报, 35(1), 37–50. https://doi.org/10.16032/j.issn.1004-4965.2019.004 Link PDF

2018

• Fu S, Sun J, Li W, Zhang Y (2018). Investigating the mechanisms associated with the evolutions of twin extratropical cyclones over the Northwest Pacific Ocean in mid-January 2011. Journal of Geophysical Research: Atmospheres, 123(8), 4088–4109. https://doi.org/10.1002/2017JD027852 Link PDF

• Fu S, Liu R, Sun J (2018). On the scale interactions that dominate the maintenance of a persistent heavy rainfall event: A piecewise energy analysis. Journal of the Atmospheric Sciences, 75(3), 907–925. https://doi.org/10.1175/JAS-D-17-0294.1 Link PDF

• Yang X, Sun J (2018). Organizational modes of severe wind-producing convective systems over North China. Advance in Atmospheric Sciences, 35(5), 540–549. https://doi.org/10.1007/s00376-017-7114-2 Link PDF

• Zhang Y, Zhang F, Davis C. A., Sun J (2018). Diurnal evolution and structure of long-lived mesoscale convective vortices along the Mei-Yu front over the East China plains. Journal of the Atmospheric Sciences, 75(3), 1005–1025. https://doi.org/10.1175/JAS-D-17-0197.1 Link PDF

• 孙建华, 卫捷, 傅慎明, 张元春, 汪汇洁 (2018). 江淮流域持续性强降水过程的多尺度物理模型. 大气科学, 42(04), 741–754. Link PDF

• 赵思雄, 孙建华, 鲁蓉, 傅慎明 (2018). “7·20”华北和北京大暴雨过程的分析. 气象, 44(3), 351–360. Link PDF

• 鲁蓉, 孙建华, 傅慎明 (2018). 近海水汽初值和对流影响一次华南前汛期沿海强降水对流系统发展过程的机理研究. 大气科学, 42(1), 1–15. Link PDF

2017

• Fu S, Cao J, Jiang X, Sun J (2017). On the variation of divergent flow: an eddy-flux form equation based on the quasi-geostrophic balance and its application. Advances in Atmospheric Sciences, 34(5), 599–612. https://doi.org/10.1007/s00376-016-6212-x Link

• Fu S, Sun J, Luo Y, Zhang Y (2017). Formation of long-lived summertime mesoscale vortices over Central East China:Semi-idealized simulations based on a 14-year vortex statistic. Journal of the Atmospheric Sciences, 74(12), 3955–3979. https://doi.org/10.1175/JAS-D-16-0328.1 Link PDF

• Yang X, Sun J, Zheng Y (2017). A 5-yr climatology of severe convective wind events over China. Weather and Forecasting, 32(4), 1289–1299. https://doi.org/10.1175/WAF-D-16-0101.1 Link PDF

• Zhang B, Tian X, Zhang L, Sun J (2017). Handling non-linearity in radar data assimilation using the non-linear least squares enhanced POD-4DVar. Science China Earth Sciences, 60(3), 478–490. https://doi.org/10.1007/s11430-015-0271-4 Link PDF

• Zhang Y, Sun J, Fu S (2017). Main energy paths and energy cascade processes of the two types of persistent heavy rainfall events over the Yangtze River–Huaihe River Basin. Advances in Atmospheric Sciences, 34(2), 129–143. https://doi.org/10.1007/s00376-016-6117-8 Link PDF

• Zhang Y, Sun J (2017). Comparison of the diurnal variations of precipitation east of the Tibetan Plateau among sub-periods of Meiyu season. Meteorology and Atmospheric Physics, 129(5), 539–554. https://doi.org/10.1007/s00703-016-0484-7 Link PDF

• 李津, 赵思雄, 孙建华 (2017) 一次华北破纪录暴雪成因的分析研究. 气候与环境研究 22(6):683–698 Link PDF

• 杨新林, 孙建华, 鲁蓉, 张弦 (2017). 华南雷暴大风天气的环境条件分布特征. 气象, 43(7), 769–780. Link PDF

• 张斌, 田向军, 张立凤, 孙建华 (2017) 基于NLS-4DVar方法的雷达资料同化及其在暴雨预报中的应用. 大气科学 41(2):321–332 Link PDF

2016

• Fu S, Li D, Sun J, Si D, Ling J, Tian F (2016). A 31-year trend of the hourly precipitation over South China and the underlying mechanisms. Atmospheric Science Letters, 17(3), 216–222. https://doi.org/10.1002/asl.645 Link PDF

• Fu S, Wang H, Sun J, Zhang Y (2016). Energy budgets on the interactions between the mean and eddy flows during a persistent heavy rainfall event over the Yangtze River valley in summer 2010. Journal of Meteorological Research, 30(4), 513–527. https://doi.org/10.1007/s13351-016-5121-3 Link PDF

• Fu, S, Sun J, Ling J, Wang H, Zhang Y (2016). Scale interactions in sustaining persistent torrential rainfall events during the Mei-yu season. Journal of Geophysical Research: Atmospheres, 121(21), 12,856-12,876. https://doi.org/10.1002/2016JD025446 Link PDF

• Fu S, Zhang J, Sun J, Zhao T (2016). Composite analysis of long-lived mesoscale vortices over the middle reaches of the Yangtze River valley: Octant features and evolution mechanisms. Journal of Climate, 29(2), 761–781. https://doi.org/10.1175/JCLI-D-15-0175.1 Link PDF

• Liu R, Sun J, Wei J, Fu S (2016). Classification of persistent heavy rainfall events over South China and associated moisture source analysis. Journal of Meteorological Research, 30(5), 678–693. https://doi.org/10.1007/s13351-016-6042-x Link PDF

• Wang H, Sun J, Zhao S, Wei J (2016). The multiscale factors favorable for a persistent heavy rain event over Hainan Island in October 2010. Journal of Meteorological Research, 30(4), 496–512. https://doi.org/10.1007/s13351-016-6005-2 Link PDF

• Zhao S, Sun J, Lu R (2016). Analysis of “9.4” unusual rainfall in Beijing during autumn 2015. Atmospheric and Oceanic Science Letters, 9(3), 219–225. https://doi.org/10.1080/16742834.2016.1162083 Link PDF

• 孙建华, 汪汇洁, 卫捷, 齐琳琳 (2016). 江淮区域持续性暴雨过程的水汽源地和输送特征. 气象学报, 74(4), 542–555. Link PDF

• 李娟, 孙建华, 张元春, 沈新勇 (2016). 四川盆地西部与东部持续性暴雨过程的对比分析. 高原气象, 35(1), 64–76. Link PDF

• 郑淋淋, 孙建华 (2016). 风切变对中尺度对流系统强度和组织结构影响的数值试验. 大气科学, 40(2), 324–340. Link PDF

2015

• Fu S, Li W, Ling J (2015) On the evolution of a long‐lived mesoscale vortex over the Yangtze River Basin: Geometric features and interactions among systems of different scales. JGR Atmospheres 120(23). https://doi.org/10.1002/2015JD023700 Link PDF

• Fu S, Li W, Sun J, Zhang J, Zhang Y (2015). Universal evolution mechanisms and energy conversion characteristics of long-lived mesoscale vortices over the Sichuan Basin. Atmospheric Science Letters, 16(2), 127–134. https://doi.org/10.1002/asl2.533 Link PDF

• Gao S, Tan Z, Zhao S, Luo Z, Lu H, Wang D, et al. (2015). Mesoscale dynamics and its application in torrential rainfall systems in China. Advances in Atmospheric Sciences, 32(2), 192–205. https://doi.org/10.1007/s00376-014-0005-x Link PDF

• Li D, Sun J, Fu S, Wei J, Wang S, Tian F. (2016). Spatiotemporal characteristics of hourly precipitation over central eastern China during the warm season of 1982–2012. International Journal of Climatology, 36(8), 3148–3160. https://doi.org/10.1002/joc.4543 Link PDF

• Tian F, Zheng Y, Zhang T, Zhang X, Mao D, Sun J, Zhao S (2015). Statistical characteristics of environmental parameters for warm season short-duration heavy rainfall over central and eastern China. Journal of Meteorological Research, 29(3), 370–384. https://doi.org/10.1007/s13351-014-4119-y Link PDF

• Yang X, Sun J, Li W (2015). An analysis of cloud-to-ground lightning in China during 2010–13. Weather and Forecasting, 30(6), 1537–1550. https://doi.org/10.1175/WAF-D-14-00132.1 Link PDF

• Zhang B, Tian X, Sun J, Chen F, Zhang Y, Zhang L, Fu S (2015). PODEn4DVar-based radar data assimilation scheme: formulation and preliminary results from real-data experiments with advanced research WRF (ARW). Tellus A: Dynamic Meteorology and Oceanography, 67(1), 26045. https://doi.org/10.3402/tellusa.v67.26045 Link PDF

• 傅慎明, 孙建华, 张敬萍, 李崴 (2015). 一次引发强降水的东北冷涡的演变机理及能量特征研究. 气象, 41(5), 554–565. Link PDF

• 孙建华, 李娟, 沈新勇, 康岚 (2015). 2013年7月四川盆地一次特大暴雨的中尺度系统演变特征. 气象, 41(5), 533–543. Link PDF

• 王璐璐, 孙建华, 陈潇潇, 钱昊钟, 周彬, 沈雨辰, 查书瑶 (2015). 梅雨期一次线状对流系统的结构特征研究. 热带气象学报, 31(6), 766–781. https://doi.org/10.16032/j.issn.1004-4965.2015.06.005 Link PDF

• 张敬萍, 傅慎明, 孙建华, 沈新勇, 张元春 (2015). 夏季长江流域两类中尺度涡旋的统计与合成研究. 气候与环境研究, 20(3), 319–336. Link

2014

• Fu S, Sun J, Sun J (2014) Accelerating two-stage explosive development of an extratropical cyclone over the northwestern Pacific Ocean: a piecewise potential vorticity diagnosis. Tellus A: Dynamic Meteorology and Oceanography 66(1):23210. https://doi.org/10.3402/tellusa.v66.23210 Link PDF

• Fu S, Sun J, Qi L (2014) Study on the Evolution of a Northeast China Cold Vortex during the Spring of 2010. Atmospheric and Oceanic Science Letters 7(2):149–156. https://doi.org/10.3878/j.issn.1674-2834.13.0077 Link PDF

• Fu S, Zhang J, Sun J, Shen X (2014) A fourteen-year climatology of the Southwest Vortex in summer. Atmospheric and Oceanic Science Letters 7(6):510–514. https://doi.org/10.3878/AOSL20140047 Link PDF

• Yang X, Sun J (2014) The characteristics of cloud-to-ground lightning activity with severe thunderstorm wind in South and North China. Atmospheric and Oceanic Science Letters 7(6):571–576. https://doi.org/10.3878/AOSL20140046 Link PDF

• Zhang Y, Sun J, Fu S (2014) Impacts of diurnal variation of mountain-plain solenoid circulations on precipitation and vortices east of the Tibetan Plateau during the mei-yu season. Advance in Atmospheric Sciences 31(1):139–153. https://doi.org/10.1007/s00376-013-2052-0 Link PDF

• Zhang Y, Zhang F, Sun J (2014) Comparison of the diurnal variations of warm-season precipitation for East Asia vs. North America downstream of the Tibetan Plateau vs. the Rocky Mountains. Atmos Chem Phys 14(19):10741–10759. https://doi.org/10.5194/acp-14-10741-2014 Link PDF

• 孙建华, 郑淋淋, 赵思雄 (2014) 水汽含量对飑线组织结构和强度影响的数值试验. 大气科学 38(4):742–755 Link PDF

• 汪汇洁, 孙建华, 卫捷, 赵思雄 (2014) 近30年我国南方区域持续性暴雨过程的分类研究. 气候与环境研究 19(6):713–725 Link PDF

• 汪汇洁, 孙建华, 赵思雄, 傅慎明 (2014) 2010年秋季一次海南东海岸特大暴雨的中尺度分析. 热带气象学报 30(3):518–532 Link PDF

• 王璐璐, 孙建华, 沈新勇, 黄伟 (2014) 江淮流域无层状云线状对流系统发生的环境条件和地面特征分析. 热带气象学报 30(3):551–558 Link PDF

2013

• Zheng L, Sun J, Zhang X, Liu C (2013) Organizational modes of mesoscale convective systems over central East China. Weather and Forecasting 28(5):1081–1098. https://doi.org/10.1175/WAF-D-12-00088.1 Link PDF

• 孙建华, 赵思雄, 傅慎明, 汪汇洁, 郑淋淋 (2013) 2012年7月21日北京特大暴雨的多尺度特征. 大气科学 37(3):705–718 Link PDF

• 张元春, 孙建华, 徐广阔, 齐琳琳 (2013) 江淮流域两次中尺度对流涡旋的结构特征研究. 气候与环境研究 18(3):271–287 Link PDF

• 赵思雄, 孙建华 (2013) 近年来灾害天气机理和预测研究的进展. 大气科学 37(2):297–312 Link PDF

• 郑淋淋, 孙建华 (2013) 干、湿环境下中尺度对流系统发生的环流背景和地面特征分析. 大气科学 37(4):891–904 Link PDF

2012

• Yu F, Fu S, Zhao S, Sun J (2012) Study on the dynamic characteristics of an eastward-offshore mesoscale vortex along the Meiyu-Baiu front. Atmospheric and Oceanic Science Letters 5(5):360–366. https://doi.org/10.1080/16742834.2012.11447016 Link PDF

• Fu S, Sun J (2012) Circulation and eddy kinetic energy budget analyses on the evolution of a Northeast China Cold Vortex (NCCV) in May 2010. Journal of the Meteorological Society of Japan Ser II 90(4):553–573. https://doi.org/10.2151/jmsj.2012-408 Link PDF

• Sun J, Zhang F (2012) Impacts of mountain–plains solenoid on diurnal variations of rainfalls along the Mei-Yu front over the East China Plains. Monthly Weather Review 140(2):379–397. https://doi.org/10.1175/MWR-D-11-00041.1 Link PDF

• Xia R, Wang D, Sun J, Wang G, Xia G (2012) An observational analysis of a derecho in South China. Acta Meteorol Sin 26(6):773–787. https://doi.org/10.1007/s13351-012-0608-z Link PDF

• 傅慎明, 孙建华, 赵思雄, 齐琳琳 (2012) 2004年冬季风期间一次强寒潮过程的能量收支研究. 气候与环境研究 17(5):549–562 Link PDF

• 孙建华 (2012) 2008年6月广东沿海一次对流线的演变与结构特征. 暴雨灾害 31(3):201–209 Link PDF

• 张元春, 孙建华, 傅慎明 (2012) 冬季一次引发华北暴雪的低涡涡度分析. 高原气象 31(2):387–399 Link PDF

• 梁建宇, 孙建华 (2012) 2009年6月一次飑线过程灾害性大风的形成机制. 大气科学 36(2):316–336 Link PDF

• 赵思雄, 孙建华 (2012) 陶诗言院士对暴雨科学研究与预报的若干重大贡献. 暴雨灾害 31(4):293–297 Link PDF

2011

• Bao X, Zhang F, Sun J (2011) Diurnal variations of warm-season precipitation east of the Tibetan Plateau over China. Monthly Weather Review 139(9):2790–2810. https://doi.org/10.1175/MWR-D-11-00006.1 Link PDF

• Cui L, Sun J, Qi L, Lei T (2011) Application of ATOVS radiance-bias correction to typhoon track prediction with Ensemble Kalman Filter data assimilation. Advance in Atmospheric Sciences 28(1):178–186. https://doi.org/10.1007/s00376-010-9145-9 Link PDF

• Fu S, Sun J, Zhao S, Li W (2011) The energy budget of a southwest vortex with heavy rainfall over south China. Advance in Atmospheric Sciences 28(3):709–724. https://doi.org/10.1007/s00376-010-0026-z Link PDF

• Fu S, Sun J (2011) On the Significance and Use of the Generalized Moist Potential Vorticity Equation. Atmospheric and Oceanic Science Letters 4(3):131–135. https://doi.org/10.1080/16742834.2011.11446917 Link PDF

• Fu S, Li W, Sun J, Xia R (2011) A budget analysis of a long-lived tropical mesoscale vortex over Hainan in October 2010. Meteorology and Atmospheric Physics 114(1):51. https://doi.org/10.1007/s00703-011-0156-6 Link PDF

• 傅慎明, 孙建华, 赵思雄, 李万莉, 李博 (2011) 梅雨期青藏高原东移对流系统影响江淮流域降水的研究. 气象学报 69(4):581–600 Link PDF

• 孙建华, 卫捷, 赵思雄, 陶诗言 (2011) 2009年夏季异常天气及其环流分析. 气候与环境研究 16(2):209–220 Link PDF

• 孙建华, 黄翠银 (2011) 山东半岛一次暴雪过程的海岸锋三维结构特征. 大气科学 35(1):1–15 Link PDF

• 郑淋淋, 孙建华, 卫捷 (2011) 我国雷暴的日变化特征. 暴雨灾害 30(2):137–144 Link PDF

2010

• Cui L, Sun J, Qi L (2010) Two bias correction dchemes for ATOVS radiance data. Journal of Tropical Meteorology 16(1):71–76 Link PDF

• Zheng L, Sun J, Wei J (2010) Thunder events in China: 1980-2008. Atmospheric and Oceanic Science Letters 3(4):181–188. https://doi.org/10.1080/16742834.2010.11446866 Link PDF

• Fu S, Sun J, Zhao S, Li W (2010) The impact of the eastward propagation of convective systems over the Tibetan Plateau on the Southwest Vortex formation in summer. Atmospheric and Oceanic Science Letters 3(1):51–57. https://doi.org/10.1080/16742834.2010.11446836 Link PDF

• Sun J, Zhao S (2010) The impacts of multiscale weather systems on freezing rain and snowstorms over southern China. Weather and Forecasting 25(2):388–407. https://doi.org/10.1175/2009WAF2222253.1 Link PDF

• Sun J, Zhao S, Xu G, Meng Q (2010) Study on a mesoscale convective vortex causing heavy rainfall during the mei-yu season in 2003. Advance in Atmospheric Sciences 27(5):1193–1209. https://doi.org/10.1007/s00376-009-9156-6 Link PDF

• 傅慎明, 赵思雄, 孙建华, 李万莉 (2010) 一类低涡切变型华南前汛期致洪暴雨的分析研究. 大气科学 34(2):235–252 Link PDF

• 张小玲, 陶诗言, 孙建华 (2010) 基于“配料”的暴雨预报. 大气科学 34(4):754–766 Link PDF

• 齐琳琳, 王晓丹, 宁应惠, 孙建华 (2010) 耦合模式在局地辐射雾三维数值模拟研究中的应用. 气候与环境研究 15(1):53–63 Link PDF

• 赵文斌, 齐琳琳, 何宏让, 孙建华 (2010) 暴雨模拟中多普勒雷达径向速度变分同化的应用. 气象科技 38(1):37–43. https://doi.org/10.19517/j.1671-6345.2010.01.008 Link PDF

2009

• Fu S, Sun J, Zhao S, Li W (2009) An analysis of the eddy kinetic energy budget of a Southwest Vortex during heavy rainfall over South China. Atmospheric and Oceanic Science Letters 2(3):135–141. https://doi.org/10.1080/16742834.2009.11446791 Link PDF

• Sun J, Zhao S (2009) The freezing precipitation over the middle-lower reaches of the Yangtze River during February-March 2009. Atmospheric and Oceanic Science Letters 2(3):177–182. https://doi.org/10.1080/16742834.2009.11446797 Link PDF

• 孟庆涛, 孙建华, 乔枫雪 (2009) 20世纪90年代以来东北暴雨过程特征分析. 气候与环境研究 14(6):596–612 Link PDF

• 徐广阔, 孙建华, 赵思雄 (2009) 基于雷达资料同化的2003年7月一次暴雨过程的数值模拟及分析. 热带气象学报 25(4):427–434 Link PDF

• 徐广阔, 孙建华, 雷霆, 赵思雄 (2009) 多普勒天气雷达资料同化对暴雨模拟的影响. 应用气象学报 20(1):36–46 Link PDF

• 陶诗言, 卫捷, 孙建华, 赵思雄 (2009) 2008/2009年秋冬季我国东部严重干旱分析. 气象 35(4):3–10 Link PDF

2008

• Sun J, Zhao L (2008) Numerical simulation of two East Asian dust storms in spring 2006. Earth Surface Processes and Landforms 33(12):1892–1911. https://doi.org/10.1002/esp.1734 Link PDF

• 高守亭, 孙建华, 崔晓鹏 (2008) 暴雨中尺度系统数值模拟与动力诊断研究. 大气科学 (4):854–866 Link PDF

• 孙建华, 赵思雄 (2008) 2008年初南方雨雪冰冻灾害天气静止锋与层结结构分析. 气候与环境研究 (4):368–384 Link PDF

• 孙建华, 赵思雄 (2008) 2008年初南方雨雪冰冻灾害天气的大气层结和地面特征的数值模拟. 气候与环境研究 (4):510–519 Link PDF

• 赵思雄, 孙建华 (2008) 2008年初南方雨雪冰冻天气的环流场与多尺度特征. 气候与环境研究 (4):351–367 Link PDF

• 黄翠银, 沈新勇, 孙建华, 齐琳琳 (2008) 一次由海岸锋引发山东半岛暴雪过程的研究. 气候与环境研究 (4):567–583 Link PDF

2007

• Zhao S, Bei N, Sun J (2007) Mesoscale analysis of a heavy rainfall event over Hong Kong during a pre-rainy season in South China. Advance in Atmospheric Sciences 24(4):555–572. https://doi.org/10.1007/s00376-007-0555-2 Link PDF

• Zhao S, Sun J (2007) Study on cut-off low-pressure systems with floods over Northeast Asia. Meteorol Atmos Phys 96(1):159–180. https://doi.org/10.1007/s00703-006-0226-3 Link PDF

• 乔枫雪, 赵思雄, 孙建华 (2007) 一次引发暴雨的东北低涡的涡度和水汽收支分析. 气候与环境研究 (3):397–412 Link PDF

• 卫捷, 孙建华 (2007) 华北地区夏季高温闷热天气特征的分析. 气候与环境研究 (3):453–463 Link PDF

• 卫捷, 陈红, 孙建华, 陶诗言, 张庆云, 赵思雄 (2007) 2006年夏季中国的异常气候——中国科学院大气物理研究所短期气候预测检验. 气候与环境研究 (1):1–7 Link PDF

• 孙建华, 赵琳娜, 赵思雄 (2007) 2006年春季一次引起华北地区强沉降的沙尘暴过程的模拟研究. 气候与环境研究 (3):339–349 Link PDF

• 孙建华, 齐琳琳, 朱江, 赵思雄 (2007) 三维变分系统在我国夏季降雨预测中的应用试验. 气候与环境研究 (3):413–425 Link PDF

• 张立生, 孙建华, 赵思雄, 亓翠云 (2007) 长江中游暖切变型暴雨的分析研究. 气候与环境研究 (2):165–180 Link PDF

• 赵思雄, 张立生, 孙建华 (2007) 2007年淮河流域致洪暴雨及其中尺度系统特征的分析. 气候与环境研究 (6):713–727 Link PDF

• 赵琳娜, 孙建华, 王超, 赵思雄 (2007) 2006年春季最强沙尘暴过程的数值分析. 气候与环境研究 (3):309–319 Link PDF

• 陈红, 卫捷, 孙建华, 赵思雄, 陶诗言 (2007) 2006年夏季主要天气系统及环流特征分析. 气候与环境研究 (1):8–19 Link PDF

2006

• Qi L, Sun J (2006) Application of ATOVS microwave radiance assimilation to rainfall prediction in Summer 2004. Advance in Atmospheric Sciences 23(5):815–830. https://doi.org/10.1007/s00376-006-0815-6 Link PDF

• Sun J, Zhao L, Zhao S, Zhang R (2006) An integrated dust storm prediction system suitable for east Asia and its simulation results. Global and Planetary Change 52(1):71–87. https://doi.org/10.1016/j.gloplacha.2006.02.005 Link PDF

• 卫捷, 孙建华, 陶诗言, 张庆云 (2006) 2005年夏季中国东部气候异常分析——中国科学院大气物理研究所短期气候预测检验. 气候与环境研究 (2):155–168 Link PDF

• 夏茹娣, 赵思雄, 孙建华 (2006) 一类华南锋前暖区暴雨β中尺度系统环境特征的分析研究. 大气科学 (5):988–1008 Link PDF

• 孙建华, 卫捷, 赵思雄, 陶诗言 (2006) 2005年夏季的主要天气及其环流分析. 气候与环境研究 (2):138–154 Link PDF

• 孙建华, 周海光, 赵思雄 (2006) 2003年7月3~5日淮河流域大暴雨中尺度对流系统的观测分析. 大气科学 (6):1103–1118 Link PDF

• 孙建华, 齐琳琳, 赵思雄 (2006) “9608”号台风登陆北上引发北方特大暴雨的中尺度对流系统研究. 气象学报 (1):57–71 Link PDF

• 齐琳琳, 孙建华, 连樱, 马环宇 (2006) 热带气旋“蒲公英”两次登陆过程的灾害与结构特征. 气候与环境研究 (4):499–513 Link PDF

2005

• Sun J, Zhang X, Qi L, Zhao S (2005) An analysis of a meso-β system in a mei-yu front using the intensive observation data during CHeRES 2002. Advance in Atmospheric Sciences 22(2):278–289. https://doi.org/10.1007/BF02918517 Link PDF

• Zhang R, Arimoto R, An J, Yabuki S, Sun J (2005) Ground observations of a strong dust storm in Beijing in March 2002. Journal of Geophysical Research: Atmospheres 110(D18). https://doi.org/10.1029/2004JD004589 Link PDF

• 孙建华, 卫捷, 张小玲, 赵思雄, 陶诗言 (2005) 2004年夏季的天气及预测试验. 气候与环境研究 (1):1–18 Link PDF

• 孙建华, 张小玲, 卫捷, 赵思雄 (2005) 20世纪90年代华北大暴雨过程特征的分析研究. 气候与环境研究 (3):214–228 Link PDF

• 雷航, 林朝晖, 孙建华 (2005) 一个改进的沙尘天气数值预测系统及其模拟试验. 气候与环境研究 (3):391–405 Link PDF

• 齐琳琳, 孙建华, 张小玲, 赵思雄 (2005) ATOVS资料在长江流域一次暴雨过程模拟中的应用. 大气科学 (5):780–794 Link PDF

2004

• 孙建华, 卫捷, 张小玲, 陈红, 赵思雄, 陶诗言 (2004) 2003年夏季的异常天气及预测试验. 气候与环境研究 (1):203–217 Link PDF

• 孙建华, 张小玲, 齐琳琳, 张高英, 赵思雄, 陶诗言 (2004) 2002年中国暴雨试验期间一次低涡切变上发生发展的中尺度对流系统研究. 大气科学 (5):675–691 Link PDF

• 孙建华, 张小玲, 齐琳琳, 张高英, 赵思雄, 陶诗言 (2004) 2002年6月20～24日梅雨锋中尺度对流系统发生发展分析. 气象学报 (4):423–438 Link PDF

• 孙建华, 赵琳娜, 赵思雄 (2004) 华北强沙尘暴的数值模拟及沙源分析. 气候与环境研究 (1):139–154 Link PDF

• 张小玲, 孙建华, 陶诗言, 赵思雄 (2004) 2002年8月湖南致洪强降水过程与成因分析. 气候与环境研究 (3):475–493 Link PDF

• 张高英, 赵思雄, 孙建华 (2004) 近年来强沙尘暴天气气候特征的分析研究. 气候与环境研究 (1):101–115 Link PDF

• 赵琳娜, 孙建华, 赵思雄 (2004) 2002年3月20日沙尘暴天气的影响系统、起沙和输送的数值模拟. 干旱区资源与环境 (S1):72–80 Link PDF

2003

• 孙建华, 赵思维 (2003) 华北地区“12·7”降雪过程的数值模拟研究. 气候与环境研究 (4):387–401 Link PDF

• 孙建华, 赵思雄 (2003) 1998年夏季长江流域梅雨期环流演变的特殊性探讨. 气候与环境研究 (3):291–306 Link PDF

• 孙建华, 赵琳娜, 赵思雄 (2003) 一个适用于我国北方的沙尘暴天气数值预测系统及其应用试验. 气候与环境研究 (2):125–142 Link PDF

• 林朝晖, 孙建华, 卫捷, 周广庆, 张小玲, 陈红, 郎咸梅 (2003) 2002年夏季气候及汛期实时预测与检验. 气候与环境研究 (3):241–257 Link PDF

2002

• Sun J, Lee T-Y (2002) A numerical study of an intense quasi-stationary convection band over the Korean Peninsula. Journal of the Meteorological Society of Japan 80(5):1221–1245. https://doi.org/10.2151/jmsj.80.1221 Link PDF

• 孙建华, 赵思雄 (2002) 华南“94·6”特大暴雨的中尺度对流系统及其环境场研究 Ⅰ.引发暴雨的β中尺度对流系统的数值模拟研究. 大气科学 (4):541–557 Link PDF

• 孙建华, 赵思雄 (2002) 华南“94·6”特大暴雨的中尺度对流系统及其环境场研究 Ⅱ.物理过程、环境场以及地形对中尺度对流系统的作用. 大气科学 (5):633–646 Link PDF

• 赵思雄, 孙建华, 陈红, 齐琳琳, 赵翼浚, 李爱国, 李云云 (2002) 北京“12·7”降雪过程的分析研究. 气候与环境研究 (1):7–21 Link PDF

• 赵思雄, 贝耐芳, 孙建华, 陈红, 张凤, 祁立新 (2002) 亚澳中低纬度区域暴雨天气系统研究. 气候与环境研究 (4):377–385 Link PDF

• 赵琳娜, 孙建华, 赵思雄 (2002) 一次引发华北和北京沙尘(暴)天气起沙机制的数值模拟研究. 气候与环境研究 (3):279–294 Link PDF

2001

• 陈红, 孙建华, 赵思雄, 曾庆存 (2001) 青藏高原人工水汽通道对西北地区夏季降水及环流的影响——I.对降水过程个例的模拟试验. 气候与环境研究 (4):371–379 Link PDF

• 孙建华, 陈红, 赵思雄, 曾庆存 (2001) 青藏高原人工水汽通道对西北地区夏季降水及环流的影响——Ⅱ.对月降水量的模拟试验. 气候与环境研究 (4):380–390 Link PDF

2000

• 孙建华, 赵思雄 (2000) 一次罕见的华南大暴雨过程的诊断与数值模拟研究. 大气科学 (3):381–392 Link PDF

• 孙建华, 赵思雄 (2000) 登陆台风引发的暴雨过程之诊断研究. 大气科学 (2):223–237 Link PDF

1999

• 孙建华, 陈红, 赵思雄, 曾庆存, 谢庄, 崔继良, 刘海涛 (1999) 华北和北京的酷暑天气 II.模拟试验和机理分析. 气候与环境研究 (4):334–345 Link PDF

• 谢庄, 崔继良, 刘海涛, 赵思雄, 孙建华, 陈红, 曾庆存 (1999) 华北和北京的酷暑天气 I.历史概况及个例分析. 气候与环境研究 (4):323–333 Link PDF

1998

• 陈红, 孙建华, 贝耐芳, 王俊, 张宝严, 杜长萱, 蔡则怡, 赵思雄 (1998) 1998年中国科学院大气物理研究所气候与环境预测研究中心汛期暴雨短期数值预测. 气候与环境研究 (4):95–102 Link PDF

• 赵思雄, 孙建华, 陈红, 张凤 (1998) 1998年7月长江流域特大洪水期间暴雨特征的分析研究. 气候与环境研究 (4):81–94 Link PDF

会议报告

• 2023.08 第五届全国中尺度气象学论坛 宁夏银川
  • 傅慎明 大别山涡的关键统计特征研究 Talk
• 2023.08 第20届亚洲-大洋洲地球科学学会年会（The 20th Annual Meeting of Asia Oceania Geosciences Society） 新加坡
  • 付亚男 Initiations of Mesoscale Convective Systems in the Middle Reaches of the Yangtze River Basin : Statistical Characteristics and Environmental Conditions Talk
• 2023.08 第八届金砖国家青年科学家论坛（BRICS Young Scientist Forum and Innovator Prize 2023） 南非伊丽莎白港
  • 张元春 Features, Mechanism and Predictability of Heavy Rainfall Extremes in China
• 2023.04 2023暴雨东湖论坛 湖北武汉
  • 孙建华 长江中游复杂地形对强对流系统和降水分布的影响（特邀）
  • 傅慎明 高原涡的关键统计特征与共性形成机理（特邀）
  • 张元春 长江中游二级地形附近MCS的触发和演变特征

  
  
  
  

毕业生及去向

• 魏倩，2024届博士毕业生
• 博士论文 《长江中游地区强对流系统的统计特征和触发机理研究》
• 中国科学院西北生态环境资源研究院

• 李梓睿，2024届硕士毕业生（云南大学联培）
• 云南省气象局

• 张敬萍，2023届博士毕业生
• 博士论文 《大别山地区中尺度涡旋的统计特征及影响因子研究》
• 北京学校

• 杨雯婷，2023届博士毕业生
• 博士论文 《暖季华南持续性暴雨维持的三维能量路径及供给机理》

• 马铮，2022届博士毕业生
• 博士论文 《静止气象卫星大气探测的反演与短临预报应用研究》 Link PDF
• Cooperative Institute for Meteorological Satellite Studies, University of Wisconsin-Madison

• 刘翠，2022届博士毕业生
• 博士论文 《西南地区强降水的数值模式预报偏差特征及其成因研究》 Link PDF
• 中国气象局 国家卫星气象中心

• 汤欢，2022届博士毕业生
• 博士论文 《近42年暖季高原涡的统计特征、演变机理及其与MCS的相互作用》 Link PDF
• 中国气象局 气象干部培训学院

• 马若赟，2022届博士毕业生
• 博士论文 《华北地区暖季强对流的触发、组织类型及环境条件研究》 Link
• 中国气象局 地球系统数值预报中心

• 姜立智，2021届博士毕业生
• 博士论文 《北半球爆发气旋近四十年的统计特征及影响因子研究》 Link PDF
• 福建省气象局 气象科学研究所

• 杨如意，2019届博士毕业生
• 博士论文 《长江中游二级地形附近MCS的统计特征及东移影响下游降水的机理》 Link
• 中国气象局 公共气象服务中心

• 麦子，2019届博士毕业生
• 博士论文 《青藏高原暖季对流的活动特征及东移影响下游降水的机理》 Link
• 中国气象局 国家气象中心

• 田付友，2018届博士毕业生
• 博士论文 《我国东部短时强降水天气成因及潜势预报方法研究》 Link PDF
• 中国气象局 国家气象中心

• 鲁蓉，2018届博士毕业生
• 博士论文 《2011-2015年华南暖季中尺度强对流系统的特征及机理研究》 Link
• 南京市气象局

• 刘瑞鑫，2018届博士毕业生
• 博士论文 《华南暖区暴雨统计特征及触发机理研究》 Link
• 北京市气象局

• 杨新林，2018届博士毕业生
• 博士论文 《华北雷暴大风对流系统特征及机理研究》 Link
• 中国民用航空飞行学院（现工作单位）

• 李德帅，2016届博士毕业生（兰州大学客座）
• 博士论文 《基于逐小时资料的华南地区汛期降水时空变化特征及其可能成因研究》 Link

• 李娟，2015届硕士毕业生（南京信息工程大学客座）
• 硕士论文 《四川盆地西部与东部持续性暴雨过程的对比研究》 Link
• 温州市气象局

• 汪汇洁，2014届博士毕业生
• 博士论文 《我国南方暖季持续性暴雨的多尺度特征及机理研究》 Link
• 中国科学院 大气物理研究所

• 张元春，2013届博士毕业生
• 博士论文 《青藏高原东部对流系统东移影响江淮流域降水研究》 Link
• 中国科学院 大气物理研究所

• 郑淋淋，2013届博士毕业生
• 博士论文 《我国江淮和黄淮流域中尺度对流系统的特征研究》 Link
• 安徽省气象局

• 王璐璐，2013届硕士毕业生（南京信息工程大学客座）
• 硕士论文 《江淮流域无层状云对流线的环境条件和结构特征研究》 Link
• 无锡市气象局

• 于翡，2012届博士毕业生
• 博士论文 《多梅年暴雨中尺度涡旋特征及发展移动机理研究》 Link PDF
• 中国气象局 国家气象中心

• 梁建宇，2011届硕士毕业生
• 硕士论文 《2009年6月两次造成地面大风的飑线的结构特征对比研究》 Link PDF

• 崔丽梅，2010届博士毕业生
• 博士论文 《集合Kalman滤波在一个全球谱模式中的应用研究》 Link
• 中国科学院 大气物理研究所

• 徐广阔，2009届博士毕业生
• 博士论文 《江淮流域中尺度对流诱生涡旋的结构和演变特征研究》 Link PDF

• 孟庆涛，2009届硕士毕业生
• 硕士论文 《2007年江淮流域梅雨期中尺度对流系统（MCS）特征研究》 Link PDF
• 中国气象局 国家气象中心

• 黄翠银，2009届硕士毕业生（南京信息工程大学客座）
• 博士论文 《2005年12月山东半岛一次海岸锋暴雪过程的诊断分析和数值模拟研究》 Link
• 南宁市气象局

• 张立生，2008届博士毕业生
• 博士论文 《江淮流域中尺度对流诱生涡旋的结构和演变特征研究》 Link
• 中国气象局 国家气象中心

• 乔枫雪，2007届硕士毕业生
• 硕士论文 《东北暴雨天气气候特征及东北低涡结构研究》 Link
• 华东师范大学（现工作单位）