陈斌
研究员,博士生导师
陈斌,男,博士,研究员,博士生导师。主要从事青藏高原气象、极端强降水、大气水分循环及其亚洲季风去对流层-平流层输送等方面研究。主持国家自然科学基金和重点研发专项课题等10余项。
教育及工作经历:
201710 - 至今 中国气象科学研究院 灾害天气国家重点实验室 研究员
201209 - 201709 中国气象科学研究院灾害天气国家重点实验室 副研究员
201011 - 201206 中国气象科学研究院 博士后
200709 - 201110,香港中文大学太空与地球信息科学研究所 Research Associate
2004.06 南京信息工程大学和中国气象科学研究院联合培养 博士
2009.05 南京信息工程大学获气象学 硕士
学术兼职:
中国计算物理学会 理事
29届动力气象学委员会委员
荣誉奖励:
入选气科院“高层次人才培养计划”
2016年四川省科技进步一等奖等(7/10)
2021年西藏自治区科学技术一等奖(7/20)
Liu, X., Chen, B*., Zhang, W., ChunZhu, W., Yu, Y., Xu, X., (2026). Deciphering divergent atmospheric river environments in extreme and non-extreme precipitation over the lower reach of Yangtze River Basin. Atmospheric. Research. 337, 108960. https://doi.org/10.1016/j.atmosres.2026.108960
Liu, X., Chen B.*, Y.Yu, X.Xu, and S.Yang. (2026). Anomalous Moisture Uptake Intensifying Summer Extreme Precipitation Linked to Atmospheric Rivers Over the Lower Yangtze River Basin. International Journal of Climatologye.70319. https://doi.org/10.1002/joc.70319.
Ma, J., Chen, B., He, Q., Yan, X., Wang, G., Cheng, S., Steil, B., Brühl, C., Pozzer, A., and Lelieveld, J.: Modelling the deep convective transport of trace gases (CO, NH3 and SO2) from the planetary boundary layer to the Asian summer monsoon anticyclone, EGUsphere [preprint], https://doi.org/10.5194/egusphere-2025-5587, 2025.
Zhao, R., Chen, B*., Zhang, W. et al. Upstream evaporative moisture sources anchor strong persistent heavy precipitation events over southeastern Tibetan plateau. Climate Dynamics. 64, 23 (2026). https://doi.org/10.1007/s00382-025-07995-z
Lan, J., Chen, B*., Ma, J., Ren, H., (2025). Linkage between the Tibetan Plateau summer rainfall and direct moisture supplies from the key low-latitude seas. Atmos. Res., 108636. https://doi.org/10.1016/j.atmosres.2025.108636.
Lan, J., Ren, H.-L*., Ma, J., & Chen, B. (2025). Primary Interannual Variability Modes of Summer Moisture Transports in the Tibetan Plateau. Remote Sensing, 17(9), 1508. https://doi.org/10.3390/rs17091508.
Chen, B*, R. Zhao, W. Zhang, S. Yang, X. Xu, C. Wang, and J. Huo, (2025): Modulation of Anomalous Moisture Uptakes on Weather-Type-Based Daily Extreme Precipitation Events over the Southeastern Edge of the Tibetan Plateau. J. Hydrometeor., 26, 781–799, https://doi.org/10.1175/JHM-D-24-0066.1.
Zhao, R., Chen, B*., Zhao, Y., Zhang, W., Xu, X., & Li, Y. (2025). Rapid intensification of persistent extreme precipitation over the eastern periphery of the Tibetan Plateau after 2000: The role of southwest vortices. Geophysical Research Letters, 52, e2025GL115511. https://doi.org/10.1029/2025GL115511
陈龙光, 陈斌*, 赵瑞瑜, 等. (2025). 基于天气分型的四川盆地西侧极端强降水事件环流异常配置与演变特征[J]. 大气科学, 49(2): 491−506. DOI: 10.3878/j.issn.1006-9895.2303.23017. CHEN Longguang, CHEN Bin, ZHAO Ruiyu, et al. 2025. Configuration of Large-Scale Circulation Anomalies and Their Evolution for Extreme Heavy-Precipitation Events in the West of the Sichuan Basin Based on Classified Weather Patterns [J]. Chinese Journal of Atmospheric Sciences (in Chinese with English abstract), 49(2): 491−506. DOI: 10.3878/j.issn.1006-9895.2303.23017.
Zhao, R., Chen, B*., Zhang, W. et al. Revisiting the dry-to-wet shift of summer precipitation over the Three-River Headwaters region, hinterland of the Tibetan Plateau: a perspective of moisture sources changes. Clim Dyn 62, 8827–8847 (2024). https://doi.org/10.1007/s00382-024-07362-4
Ruiyu, Z., Bin Chen*, Wei, Z., Shuai, Y., XiangDe, X., (2024): Formation mechanisms of persistent extreme precipitation events over the eastern periphery of the Tibetan Plateau: Synoptic conditions, moisture transport and the effect of steep terrain. Atmos. Res., 107341. https://doi.org/10.1016/j.atmosres.2024.107341.
CHEN Bin *, Jianzhong MA, Wei ZHANG, Jianchun BIAN, Tianliang ZHAO, Xiangde XU. (2024): Recent Enhanced Deep Troposphere-to-Stratosphere Air Mass Transport Accompanying the Weakening Asian Monsoon. Journal of Meteorological Research. DOI: 10.1007/s13351-024-3155-5.
Tian, Y., Zhao, Y., Li, J., Chen, B., Deng, L., & Wen, D. (2024): East Asia atmospheric river forecast with a deep learning method: GAN-UNet. Journal of Geophysical Research: Atmospheres, 129, e2023JD039311. DOI: https://doi.org/10.1029/2023JD039311.
李延,赵瑞瑜,陈斌*,青藏高原冬春多源积雪资料年际变化尺度上的适用性分析[J]. 高原气象,43(2): 277 – 292. DOI:10. 7522/j. issn. 1000- 0534. 2023. 00057. LI Yan, ZHAO Ruiyu, CHEN Bin. Applicability of Multi-Source Winter-Spring Snow Cover Data over the Qinghai[1]Xizang (Tibetan) Plateau on the Scale of Interannual Variation[J]. Plateau Meteorology, 43(2): 277 – 292. DOI:10. 7522/j. issn. 1000-0534. 2023. 00057.
付文卓,陈斌*,徐祥德, XXXX. 青藏高原春季区域性极端大风频次下降成因[J]. 高原气象, 43(3):1-15. FU Wenzhuo, CHEN Bin, XU Xiangde, XXXX. On the Causes of Decreased Regional Extreme Wind Frequency over the Qinghai-Xizang Plateau during the Spring Season[J]. Plateau Meteorology, 43(3):1-15. DOI:10. 7522/j. issn. 1000-0534. 2024. 00010.
Zhao, R., , , , & (2023). Moisture source anomalies connected to flood-drought changes over the three-rivers headwater region of Tibetan Plateau. International Journal of Climatology, 43(12), 5303–5316. https://doi.org/10.1002/joc.8147.
Chen, L.; Chen, Bin*; Zhao, R*.; Xu, X. Characterizing the Synoptic-Scale Precursors of Extreme Precipitation Events in the Southeastern Edge of the Tibetan Plateau: Anomalous Evolution of Atmospheric Dynamic-Thermal Structure. (2023). Water, 15, 1407. https://doi.org/10.3390/w15071407
LI Yan, CHEN Bin*, XU Xiangde. 2023. Impacts of Winter and Spring Snow Anomalies over the Tibetan Plateau on Summer Precipitation Frequency and Intensity in Eastern China [J]. Chinese Journal of Atmospheric Sciences (in Chinese), 47(4): 1231−1246 doi: 10.3878/j.issn.1006-9895.2202.22018 (通讯作者)李延, 陈斌*, 徐祥德. 2023. 青藏高原冬春积雪异常对中国东部夏季降水频次和强度变化的影响[J]. 大气科学, 47(4): 1231−1246. doi: 10.3878/j.issn.1006-9895.2202.22018.
Hsu, P.-C., Xie, J., Lee, J.-Y., Zhu, Z., Li, Y., Chen, Bin., Zhang, S., (2023). Multiscale interactions driving the devastating floods in Henan Province, China during July 2021. Weather and Climate Extremes 39, 100541.
Bai L, Ren H-L, Wei Y, Wang Y, Chen B. Influence of Madden–Julian Oscillation on Precipitation over the Tibetan Plateau in Boreal Summer. Atmosphere. 2023; 14(1):70. https://doi.org/10.3390/atmos14010070.
Wang L, Ren H-L, Xu X, Gao L, Chen B, Li J, Che H, Wang Y, Zhang X. Improving Predictions of Tibetan Plateau Summer Precipitation Using a Sea Surface Temperature Analog-Based Correction Method. Remote Sensing. 2023; 15(24):5669. https://doi.org/10.3390/rs15245669.
Yu, Y., Gao, T., Xie, L., Zhang, R.-H., Zhang, W., Xu, H., Cao, F., Chen, B., 2022. Tropical cyclone over the western Pacific triggers the record-breaking ‘21/7’ extreme rainfall in Henan, central-eastern China. Environ Res Lett 17, 124003.
Wei, Y., Liu, F., Ren, H.-L., Chen, G., Feng, C., Chen, B., 2022. Western Pacific Premoistening for Eastward-Propagating BSISO and Its ENSO Modulation. J Climate 35, 4979-4996.
Sun, C., Xu, X., Zhao, T., Yao, T., Zhang, D., Wang, N., Ma, Y., Ma, W., Chen, B., Zhang, S., Cai, W., 2022. Distinct impacts of vapor transport from the tropical oceans on the regional glacier retreat over the Qinghai-Tibet Plateau. Sci. Total Environ. 823, 153545.
Xu, X., Sun, C., Chen, D., Zhao, T., Xu, J., Zhang, S., Li, J., Chen, B., Zhao, Y., Xu, H., Dong, L., Sun, X., and Zhu, Y.: A vertical transport window of water vapor in the troposphere over the Tibetan Plateau with implications for global climate change, Atmos. Chem. Phys., 22, 1149–1157, https://doi.org/10.5194/acp-22-1149-2022, 2022.
R. Zhao B., Chen*, and X. Xu (2021). Intensified Moisture Sources of Heavy Precipitation Events Contributed to Interannual Trend in Precipitation over Three-Rivers Headwater Region in China. Front. Earth Sci. | doi: 10.3389/feart.2021.674037.
Yang, S*., S. Li, B. Chen*, Z. Xie, and J. Peng (2021), Responses of Heat Stress to Temperature and Humidity Changes Due to Anthropogenic Heating and Urban Expansion in South and North China, Frontiers in Earth Science, 9(322). https://doi.org/10.3389/feart.2021.673943.
Chen B*,, W. Zhang, S. Yang, and X. de Xu (2020), Roles of oceanic moisture exports in modulating summer rainfall over the middle-lower Yangtze River Basin: Inter-annual variability and decadal transition, Int J Climatol, 40(8), 3757-3770. https://doi.org/10.1002/joc.6426
Yang, S., W. Zhang, B. Chen*, X. Xu, and R. Zhao (2020), Remote moisture sources for 6-hour summer precipitation over the Southeastern Tibetan Plateau and its effects on precipitation intensity, Atmos. Res., 236, 104803. First Online: 10 December 2019
Yang, S., Z. Wei, B. Chen*, and X. Xu (2020), Influences of atmospheric ventilation on the composition of the upper troposphere and lower stratosphere during the two primary modes of the South Asia high, Meteorol. Atmos. Phys., 132(4), 559-570.
Chen B, Zhang W*, Yang S, et al. Identifying and contrasting the sources of the water vapor reaching the subregions of the Tibetan Plateau during the wet season[J]. Climate Dynamics, 2019, 53(11): 6891-6907.
Zhao, Y., X. Xu, Z. Ruan, B. Chen, and F. Wang (2019), Precursory strong-signal characteristics of the convective clouds of the Central Tibetan Plateau detected by radar echoes with respect to the evolutionary processes of an eastward-moving heavy rainstorm belt in the Yangtze River Basin, Meteorol. Atmos. Phys., 131(4), 697-712.
Wang, Y., Xu, X., Zhou, M., Lenschow, D. H., Guo, X., Zhao, Y., and Chen, B.: The effect of low density over the “roof of the world” Tibetan Plateau on the triggering of convection, Atmos. Chem. Phys. Discuss., https://doi.org/10.5194/acp-2019-273, 2019.
Yang, S., X. Tang, S. Zhong, B. Chen, Y. Zhou, S. Gao, and C. Wang (2019), Convective Bursts Episode of the Rapidly Intensified Typhoon Mujigae (2015), Adv. Atmos. Sci., 36(5), 541-556.
Shuai Yang, Shou-Ting Gao, Bin Chen: Another look at the moist baroclinic Ertel-Rossby invariant with mass forcingChin. Phys. B . 2018, 27(2): 029201. doi: 10.1088/1674-1056/27/2/029201.
Xin, Y. F., Chen, F., Zhao, P., Barlage, M., Blanken, P., Chen, Y. L., Chen, B., and Wang, Y. J.: Surface energy balance closure at ten sites over the Tibetan plateau, Agricultural & Forest Meteorology, 259, 317-328, 2018.
Chen, B*., X.-D. Xu, and T. Zhao (2018), Quantifying oceanic moisture exports to mainland China in association with summer precipitation, Clim Dynam, 51(11), 4271-4286.
Chen, B*., Vogel, B., Xu, X., and Yang, S.: Sub-seasonal Variability in the Boundary Layer Sources for Transport into the Tropopause Layer in the Asian Monsoon Region, Atmos. Chem. Phys. Discuss., doi:10.5194/acp-2017-216, Atmospheric Chemistry and Physics Discussion, 2017.
Chen, B*. and Xiang-De, X. U. 2017. Climatology of wintertime long-distance transport of surface-layer air masses arriving urban Beijing in 2001–2012. Atmospheric Environment 151, 70-81.
权晨,陈斌*,赵天良,周秉荣,韩永翔.拉格朗日水汽源诊断方法在三江源区的应用[J].应用气象学报,2016,(6):688~697. Quan Chen,Chen Bin,Zhao Tianliang,Zhou Bingrong,Han Yongxiang. Application of Lagrange Water Vapor Source Diagnosis Method to the Three river Source Area[J].Journal of Applied Meterological Science,2016,(6):688~697.
Zhao, Y., X. Xu, B*. Chen, and Y. Wang, 2016: The upstream “strong signals” of the water vapor transport over the Tibetan Plateau during a heavy rainfall event in the Yangtze River Basin. Adv. Atmos. Sci., 33, 1343-1350.
Chen Bin*, and X. Xiang-De, 2016: Spatiotemporal structure of the moisture sources feeding heavy precipitation events over the Sichuan Basin. Int J Climatol, 36, 3446-3457.
Shuai Yang*, ShouTing Gao, Bin Chen. (2014) The derivation of moist baroclinic Ertel-Rossby invariant in fast manifold and its application to typhoons. Science China Earth Sciences. 57:6, 1374-1382.
X. Xu, T. Zhao, C. Lu, Y. Guo, B. Chen, R. Liu, Y. Li, and X. Shi, An important mechanism sustaining the atmospheric "water tower" over the Tibetan Plateau., Atmos. Chem. Phys., 14, 11287-11295, 2014.
Chen, B., Yang, S., Xu, XD. et al. (2014). The impacts of urbanization on air quality over the Pearl River Delta in winter: roles of urban land use and emission distribution. Theor Appl Climatol 117, 29–39 https://doi.org/10.1007/s00704-013-0982-1
Chen B*, X. Xiang-De, and Z. Tianliang (2013), Main moisture sources affecting lower Yangtze River Basin in boreal summers during 2004–2009, Int J Climatol, 33(4), 1035-1046..
Chen B**, XU Xiang-de, YANG Shuai, SHI Xiao-hui and ZHANG Sheng-jun. (2013). Characteristics of UT/LS Carbon Monoxide Intraseasonal Oscillations and Their impact factors over the Tibetan Plateau and its adjacent Areas in Summer [J].Journal of Tropical Meteorology,2013,19(2):109-119.
Zhang, W., S. Gao, B. Chen (陈斌), and K. Cao (2013), The application of decision tree to intensity change classification of tropical cyclones in western North Pacific, Geophys Res Lett, 40(9), 1883-1887.
Shuai, Y., C. Bin (陈斌), and G. A. O. Shou-Ting, 2013: Diagnostic Analyses and Applications of the Moisture Helicity and the Thermal Helicity for Two Strong “Sauna” Weather Processes in Northern China. Chinese Journal of Geophysics, 56, 329-339.
杨帅,陈斌,高守亭.(2013). 水汽螺旋度和热力螺旋度在华北强“桑拿天”过程中的分析及应用.地球物理学报,2013,56(7): 2185-2194, doi:10.6036/cjg20130701.
杨帅, 高守亭, 陈斌. (2013) “快流形”湿斜压 Ertel-Rossby 不变量的导出及其在台风中的应用. 中国科学: 地球科学, 43: 1788–1796.
徐洪雄,徐祥德,陈斌,陈联寿,朱复成.2013.双台风生消过程涡旋能量、水汽输送相互影响的三维物理图像.气象学报,71(5):825-838.
Chen B*, Xu X-D, Yang S, Zhang W (2012) On the origin and destination of atmospheric moisture and air mass over the Tibetan Plateau. Theor Appl Climatol 110 (3):423-435. doi:10.1007/s00704-012-0641-y.
Chen B*, Xu XD, Yang S, Zhao TL (2012) Climatological perspectives of air transport from atmospheric boundary layer to tropopause layer over Asian monsoon regions during boreal summer inferred from Lagrangian approach. Atmos Chem Phys. 12 (13):5827-5839. doi:10.5194/acp-12-5827-2012 (SCI收录, IF=5.5) 发表日期: 06 Jul 2012
Chen Bin*, Xu Xiang-de, Yang Shuai, et al. (2012). On the temporal and spatial structure of troposphere-to-stratosphere-transport in the lowermost stratosphere over Asian monsoon region during boreal summer, Advances in Atmospheric Sciences. 29 (6):1305-1317. doi: 10.1007/s00376-012-1171-3. (SCI收录, IF=0.925).
杨帅,高守亭,陈斌. 2012. 2009年一次华北强桑拿天气过程的动力识别. 物理学报,61(13):139201. (SCI收录, IF=1.684).
陈斌, 徐祥德, 杨帅, (2012), 卞建春.夏季青藏高原地区近地层水汽进入平流层的特征分析[J] 地球物理学报,V55(2): 406-414, DOI: 10.6038/j.issn.0001-5733.2012.02.005. (SCIE收录) .
Chen Bin*, Xu Xiang-de, Jian-Chun BIAN, Xiao-Hui SHI. (2010), Characteristics of Irreversible Stratosphere-Troposphere Mass Exchange over the Asian Summer Monsoon Region. Chinese J. Geophys., 53: 310-320. https://doi.org/10.1002/cjg2.1499
陈斌,徐祥德,施晓晖.(2011).拉格朗日方法诊断2007年7月中国东部系列极端降水的水汽输送路径及其可能蒸发源区.气象学报,69(5):810-818.
陈斌, 施晓晖, 徐祥德. .2011.利用卫星大气成分资料分析夏季亚洲季风区平流层-对流层输送特征. 高原气象30(1):65-73..
Bin Chen, Xiangde Xu,Yuguo Ding et al.,(2011). The impact of heterogeneity of land surface roughness length on estimation of turbulent flux in model. Sciences in Cold and Arid Regions, 3(1):0031~0040.
陈斌,施晓晖, 徐祥德,张胜军. (2011).青藏高原UT/LS夏季CO的季节内变化特征及可能影响因子分析[J].热带气象学报,2011,(5):679-689.
陈斌,徐祥德,施晓晖.(2011).亚洲季风区夏季近地层CO向上对流层输送过程的模拟[J].气候与环境研究,16(3):280-288..
陈斌,徐祥德,施晓晖.(2011).南亚高压对亚洲季风区夏季对流层上层水汽异常分布的动力效应.气象学报,69(3):464-471.
陈斌,徐祥德,卞建春,等. (2010). 夏季亚洲季风区对流层向平流层输送的源区、路径及其时间尺度的模拟研究[J]. 大气科学, 34(3):495-505.
陈斌,徐祥德,卞建春,施晓晖.(2010). 夏季亚洲季风区对流层-平流层不可逆质量交换特征及 “源汇”分析[J]. 地球物理学报. 53(5):1050-1059.(SCIE收录)
Chen Bin, Xu Xiangde, Bian Jianchun, Shi Xiaohui. (2010). Characteristics of Irreversible stratosphere-troposphere mass exchange characteristics over the Asian summer monsoon region. Chinese Journal of Geophysics.(2010), 53(3):310-320.
陈斌, 徐祥德,施晓晖,等. 地表粗糙度非均匀性对模式网格区湍流通量计算的影响[J],高原气象. 2010, 29(2):340-348.
Gao, S., S. Yang, and B. Chen. (2010). Diagnostic analyses of dry intrusion and nonuniformly saturated instability during a rainfall event, J. Geophys. Res., 115, D02102, doi:10.1029/2009JD012467. (SCI收录)
陈斌, 徐祥德,施晓晖. 2005年夏季亚洲季风区下平流层水汽的对流源区,自然科学进展[J], 2009,19(10): 1094-1099.
陈斌,张耀存,丁裕国. 地形起伏对模式地表长波辐射计算的影响 [J].高原气象, 2006. 25(3):406-412..
陈斌,丁裕国,刘晶淼,张耀存. 非均匀地表陆面过程参数化研究 [J].高原气象, 2008,27(5):1172-1180..
陈斌,丁裕国, 刘晶淼.土壤湿度的一种统计预报模型初步试验.气象科学, 2006,25(3):231-237.
张耀存, 丁裕国, 陈斌. 2006. 地形非均匀性对网格区地面长波辐射通量计算的影响 [J]. 气象学报,64(1): 39-47.
杨宝钢, 丁裕国, 陈斌. 考虑植被的热惯量法反演土壤湿度的一次试验,南京气象学院院报. 2004, 27(2), 218-223.
2016:四川省科技进步一等奖
“青藏高原东南缘上游关键区灾害天气监测分析预警理论与技术研究”
2021:西藏自治区科学技术奖一等奖
“青藏高原多圈层地气相互作用综合观测系统的建立与应用发展研究”
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