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Publications    ( '*' denotes corresponding author, Bold Italic: supervised or co-supervised student, J##: Journals, C##: Chapters ) 

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J93. Zhongxi Lin, Ji Nie*, Jun Wang, Yang Chen, Zhiyong Meng, 2024: Responses of Mesoscale Convective System to Global Warming: A Study on the Henan 2021 Record-breaking Rainfall Event,  Journal of Geophysical Research - Atmospheres. In review. 

J92. Wen J., Z. Meng*, L. Bai, and R. Zhou, 2024: A Comparison between the Only Two Tornado Outbreak Events in China: Tropical Cyclone vs. Extratropical Cyclone Environments. Weather and Forecasting, in press, doi:


J91. Lijuan Zhang, Tzung-May Fu*Zhiqun Hu, Hongjun Liu, Zhiyong MengLeiming Ma, Jianhua Dai and Feng Zhang, 2024: Springtime mesoscale convective systems over South China: a historic radar image-based analysis of climatological features, interannual variability, and potential connections with surface aerosol, Environmental Research Letters, 47(6),e2019GL086204. doi:


J91. Qin, HJ. Nie*, and Z. Meng, 2024: A Tri-mode of Mock-Walker Cells, Advances in Atmospheric Sciences, in press. doi:  10.1007/s00376-023-3032-7


J90.  Bai*,L., D. Yao*, Z. MengY. Zhang, X. Huang, Z. Li, X. Yu, 2024: Influence of Irregular Coastlines on a Tornadic Mesovortex in the Pearl River Delta during Monsoon Season. Part II: Numerical Experiments,Advances in Atmospheric SciencesAccepted. doi:  10.1007/s00376-023-3096-4


J89.  Bai*,L.,D. Yao*,  Z. MengY. Zhang, X. Huang, Z. Li, X. Yu, 2024: Influence of Irregular Coastlines on a Tornadic Mesovortex in the Pearl River Delta during Monsoon Season. Part I: Prestorm Environment and Storm Evolution,Advances in Atmospheric Sciences, Accepted. doi:  10.1007/s00376-023-3095-5



J88. 姚乐宝,沈丹,孟雪峰,孙鑫,孟智勇, 黄晓璐,叶飞,刘林春, 孙永刚,2023: 内蒙古区域数值预报对探空和地面观测资料的敏感性试验研究, 气象,  49(11):117. 

YAO Lebao,SHEN Dan,MENG Xuefeng,SUN Xin,MENG Zhiyong,HUANG Xiaolu,YE Fei,LIU Linchun,SUN Yonggang,2024:Experimental Study on Regional Numerical Forecast Sensitivity to Radiosonde and Surface Observation over Inner Mongolia[J].Meteor Mon,49(11)117. 

J87. Duan, W. S., L. C. Yang*, M. Mu, B. Wang, X. S. Shen, Z. Y. Meng, and R. Q. Ding, 2023: Recent advances in China on the predictability of weather and climate. Adv. Atmos. Sci., 40(8), 1521−1547. 2334-0.


J86. Wang, P., and Z. Meng*, 2023:  General Features of MCSs with the Organization of Multiple Parallel Rain Bands in China, Monthly Weather Review, 151(9), 24852499.



J85. 黎立页, 孟智勇*, 白兰强, 李巍, 马小林, 韩经纬,  炎利军,  姚聃, 程银琳, 2023: 一次复杂下垫面上多龙卷事件的灾害调查、风暴观测特征与天气背景分析:内蒙古赤峰8.11 EF4级龙卷, 热带气象学报, 39(4): 507521。doi: 10.16032/j.issn.1004-4965.2023.046

LI Liye, MENG Zhiyong, BAI Lanqiang, LI Wei, MA Xiaolin, HAN Jingwei, YAN Lijun, YAO Dan, CHENG Yinlin. DAMAGE SURVEY AND ANALYSIS OF A MULTIPLE TORNADO EVENT OVER COMPLEX TERRAIN IN CHIFENG, INNER MONGOLIA ON 11 AUGUST 2017[J]. Journal of Tropical Meteorology, 2023, 39(4): 507-521. doi: 10.16032/j.issn.1004-4965.2023.046 


J84. Liu, H.Z. Meng*, Y. Zhu, Y. Huang, 2023:  Convection Initiation Associated with a Boundary Layer Convergence Line over a Real-world Sharp Vegetation-Contrast Area, Monthly Weather Review, 151(5), 11891212.


J83. 智勇*, 梁旭东, 2023: 国家自然科学基金大气科学学科二级申请代码下设研究方向与关键词解读:D0501天气学, 大气科学, 47(1), 101−110. doi:  10.3878/j.issn.1006-9895.2301.22301

Meng Zhiyong*, Liang Xudong: 2023: Research Directions and Keywords under the Secondary Application Code of the Atmopsheric Sciences Discipline of the National Natural Science Foundation of China: D0501 Synoptic Meteorology, Chinese Journal of Atmopsheric Sciences (in Chinese), 47(1), 101110. doi:10.3878/j.issn.1006-9895.2301.22301




J82. Schultz*, D. M., Anderson, J., Benacchio, T., Corbosiero, K. L., Eastin, M. D., Evans, C., Gao, J., Hacker, J. P., Hodyss, D., Kleist, D., Kumjian, M. R., McTaggart-Cowan, R., Meng, Z., R. Minder, J., Posselt, D., Roundy, P., Rowe, A., Scheuerer, M., Schumacher, R. S., Trier, S., & Weiss, C., 2022: How to Be a More Effective Author, Monthly Weather Review, 150(11), 2819–2828.



J81. Zhu* L.Z. Meng, Y. Weng, F. Zhang, 2022: Assimilation of All-sky Geostationary Satellite Infrared Radiances for Convection-Permitting Initialization and Prediction of Hurricane Joaquin (2015), Advances in Atmospheric Science, 39, 1859–1872doi: 10.1007/s00376-022-2015-4 


J80. 秦汉, 袁为,王君陈阳戴攀曦, Sobel Adam H.孟智勇聂绩*, 2022: 2021年河南极端降水的气候变化归因:对流组织的影响, 中国科学:地球科学52(10), 1863–1872, 


J79. QinH., W. Yuan, J. Wang, Y. Chen, P. Dai, A. H. Sobel, Z. Meng, J. Nie*, 2022: Climate change attribution of the 2021 Henan extreme precipitation: Impacts of convective organization, Science China Earth Sciences. 65(10), 1837–1846,



J78. 张云济于慧珍张慕容杨雅雯孟智勇*, 2022: 7·20河南省郑州市极端暴雨预报的不确定性和误差增长机制, 中国科学:地球科学52(10), 1929–1947



J77. Zhang, Y., H. Yu, M. Zhang, Y. YangZ. Meng*, 2022: Uncertainties and Error Growth in Forecasting the Record-Breaking Rainfall in Zhengzhou, Henan on 19–20 July 2021, Science China Earth Sciences, 65(10), 1903–1920,



J76. Huang, Y., Z. Meng*, M. Zhang, 2022Synoptic Impacts on the Occurrence of Mesoscale Boundaries and Their Associated Convection over an Area of Sharp Vegetation Contrast, Geophysical Research Letters,  49, e2022GL099449. 



J75. Meng*, Z., 2022: Preface to the Special Issue: Predictability, Data Assimilation, and Dynamics of High Impact Weather—In Memory of Dr. Fuqing ZHANG,   Advances in Atmospheric Science, 39(5), 673675. doi:10.1007/s00376-022-2002-9



J74. Zhang, M., K. L. Rasmussen, Z. Meng*, Y. Huang, 2022: Impacts of the Coastal Terrain on the Warm-Sector Heavy-Rain-Producing MCSs in Southern China. Monthly Weather Review, 150, 603–624,



J73. Meng* Z., and E. Clothiaux, 2022: Contributions of Fuqing Zhang to Predictability, Data Assimilation, and Dynamics of High Impact Weather: A Tribute,  Advances in Atmospheric Science, 39(5), 676–683,



J72. Yu, H.  and Z. Meng* 2022: The Impact of Moist Physics on the Sensitive Area Identification for Heavy Rainfall Associated Weather System,  Advances in Atmospheric Science, 39(5), 684–696, 



J71. Bai, L.Z. Meng*, R. Zhou, G. Chen, N. Wu, and W. Wong, 2022: Radar-based Characteristics and Formation Environment of Supercells in the Landfalling Typhoon Mujigae in 2015, Advances in Atmospheric Science,  39(5), 802–818,



J70. 朱宇宁孟智勇*雷蕾易笑园刘泓君李飒2022: 冷涡背景下连续发生的中尺度对流系统的组织演变特征分析, 北京大学学报:自然科学版58(3):421433.

Zhu Yuning, Meng Zhiyong, Lei Lei, Yi Xiaoyuan, Liu Hongjun, Li Sa, 2022: A Case Study on Organization Features of Successive Mesoscale Convective Systems in the Environment of Northeast China Cold Vortex, Acta Scientiarum Naturalium Universitatis Pekinensis (in Chinese), 58(3), 421433.



J69. Zhou R.Z. Meng*, L. Bai, 2022: Differences in Tornado Activities and Key Tornadic Environments between China and the United States, International Journal of Climatology, 42(1), 367384,





J68. Bai, L., G. Chen*, Y. Huang, and Z. Meng, 2021: Convection initiation at a coastal rainfall hotspot in South China: Synoptic patterns and orographic effects. Journal of Geophysical Research- atmosphere, 126, 24, e2021JD034642.



J67. Zhu, LL. Bai*, G. Chen, Y. Sun, Z. Meng, 2021: Convection Initiation Associated with Ambient Winds and Local Circulations Over a Tropical Island. Geophysical Research Letters, 48(16)e2021GL094382. 



J66. Li, S.Z. Meng*, N. Wu, 2021: A Preliminary Study on the Organizational Modes of Mesoscale Convective Systems As sociated with Warm-Sector Heavy Rainfall in South China, Journal of Geophysical Research- atmosphere, 126, e2021JD034587.



J65. Zhang, Y., L. Bai*, Z. Meng, B. Chen, C. Tian, and P. Fu, 2021: Rapid-Scan and Polarimetric Phased-Array Radar Observations of a Tornado in Pearl River Estuary, Journal of Tropical Meteorology, 27(1):81–86.




J64. 白兰强孟智勇, Kenta SUEKI, 陈桂兴, 周瑞琳, 2020: 中国热带气旋龙卷的气候统计特征(2006~2018), 中国科学: 地球科学, 50(5), 619634.


J63. Bai, L.Z. Meng*, K. Sueki, and R. Zhou, 2020: Climatology of Tropical Cyclone Tornadoes in China from 2006 to 2018, Science China Earth Sciences, 63(1), 37–51.



J62. Zhang, L., M. Fu*, H. Tian, Y. Ma, J-P. Chen, T-C. Tsai, Z. Meng, X. Yang, 2020: Anthropogenic Aerosols Significantly Reduce Mesoscale Convective System Occurrences and Precipitation over Southern China in April, Geophysical Research Letters, 47, e2019GL086204.




J61. Wu*, N., X. Zhuang, J. Min, Z. Meng, 2020: Practical and Intrinsic Predictability of a Warm-sector Torrential Rainfall Event in the South China Monsoon Region, Journal of Geophysical Research: Atmospheres, 125(4): 0-e2019JD031313. 



J60. 孟智勇*, 张福青, 罗德海, 谈哲敏, 方娟, 孙建华, 沈学顺, 张云济, 汪曙光, 韩威, 赵坤, 朱磊, 胡永云, 薛惠文, 马亚平, 张丽娟, 聂绩, 周瑞琳李飒刘泓君朱宇宁, 2019: 新中国成立70年以来的中国大气科学研究: 天气篇, 中国科学: 地球科学, 49 (12), 18751918.



J59. Meng* Z, Zhang F, Luo D, Tan Z, Fang J, Sun J, Shen X, Zhang Y, Wang S, Han W, Zhao K, Zhu L, Hu Y, Xue H, Ma Y, Zhang L, Nie J, Zhou RLi SLiu HZhu Y. 2019 Review of Chinese atmospheric science research over the past 70 years: Synoptic meteorology, Science China Earth Sciences, 62 (12), 1946–1991.



J58. Wu, N., X. Ding, Z. Wen*, G. Chen, Z. Meng, L. Lin, and J. Min, 2019: Contrasting Frontal and Warm-sector Heavy Rainfalls over South China during the Early-Summer Rainy Season, Atmospheric Research, 235: 104693.



J57. Zhang, M., and Z. Meng*, 2019: Warm-Sector Heavy Rainfall in Southern China and its WRF Simulation Evaluation: A Low-Level-Jet Perspective, Monthly Weather Review,147, 4461–4480.



J56. He, J., F. Zhang*, X. Chen, X. Bao, D. Chen, H. M.Kim, H.W. Lai, R. Leung, X. Ma, Z. Meng, T. Ou, Z. Xiao, E. G. Yang, K. Yang, 2019: Development and Evaluation of an Ensemble-based Data Assimilation System for Regional Reanalysis over the Tibetan Plateau and Surrounding Regions, Journal of Advances in Modeling Earth Systems, 11, 2503–2522.


J55. Zhang, M.Z. Meng*,Y. Huang, and D. Wang, 2019: The Mechanism and Predictability of an Elevated Convection Initiation Event in a Weak-Lifting Environment in Central Eastern China, Monthly Weather Review, 147, 1823–1841.  



J54. Yao, D.Z. Meng*, M. Xue, 2019: Genesis, Maintenance and Demise of a Simulated Tornado and the Evolution of its preceding Descending Reflectivity Core (DRC), Atmosphere, 10(5), 236.


J53. Huang, Y.Z. Meng*, W. Li, L.Baiand X. Meng, 2019: General Features of Radar-Observed Boundary Layer Convergence Lines and Their Associated Convection over a Sharp Vegetation-Contrast Area, Geophysical Research Letters, 46(5), 2865–2873.



J52. 孟智勇*, 唐晓静, 岳健, 白兰强, 黄龄2019: 地面和探空资料的EnKF同化对北京7·21极端暴雨模拟的影响, 北京大学学报自然科学版55(2): 237–245.

Meng*, Z.X. TangJ. YueL. Bai, and L. Huang, 2019: Impact of EnKF surface and rawindsonde data assimilation on the simulation of the extrememely heavy rainfall in Beijing on 21 July 2012, Acta Scientiarum Naturalium Universitatis Pekinensis (in Chinese), 55(2), 237–245.



J51. Bai, L.Z. Meng*,Y. HuangY. Zhang, S. Niu, and T. Su, 2019: Convection Initiation Resulting from the Interaction between a PBL Confluence Line and Gust Fronts: A Case Study, Journal of Geophysical Research: Atmospheres, 124(5), 2379–2396.




J50. Zhang, M., and Z. Meng*, 2018: Impact of synoptic-scale factors on rainfall forecast in different stages of a persistent heavy rainfall event in South China, Journal of Geophysical Research: Atmospheres, 123(7), 3574–3593.



J49. Meng*, Z., L. BaiM. Zhang, Z. Wu, Z. Li, M, Pu, Y. Zheng, X. Wang, D. Yao, M. Xue, K. Zhao, Z, Li, S. Peng, L. Li, 2018: The Deadliest Tornado (EF4) in the Past 40 Years in China, Weather and Forecasting, 33, 693–713.



J48. Deng, X., H.Xue*, and Z. Meng, 2018: The effect of ice nuclei on a deep convective cloud in South China, Atmospheric Research, 206, 1–12.




J47. Luo, Y., R. Zhang, Q. Wan, B. Wang, W.K. Wong, Z. Hu, B.J. Jou, Y. Lin, R.H. Johnson, C. Chang, Y. Zhu, X. Zhang, H. Wang, R. Xia, J. Ma, D. Zhang, M. Gao, Y. Zhang, X. Liu, Y. Chen, H. Huang, X. Bao, Z. Ruan, Z. Cui, Z. Meng, J. Sun, M. Wu, H. Wang, X. Peng, W. Qian, K. Zhao, and Y. Xiao, 2017: The Southern China Monsoon Rainfall Experiment (SCMREX), Bull. Amer. Meteor. Soc., 98, 999–1013.



J46. 陈联寿, 孟智勇*, 丛春华, 2017: 台风暴雨落区研究综述, 海洋气象学报, 37(4),1–7.

Chen, L., Z. Meng*, C. Cong, 2017: An overview on the research of typhoon rainfall distribution, Journal of Marine Meteorology (in Chinese), 37(4),1–7.



J45. Bai, L.Z. Meng*, L. Huang, L. Yan, Z. Li, X. Mai, Y. HuangD. Yao, X. Wang, 2017: An Integrated Damage, Visual, and Radar Analysis of the 2015 Foshan, Guangdong EF3 Tornado in China Produced by the Landfalling Typhoon Mujigae (2015), Bulletin of the American Meteorological Society, 98. 2619–2640.



J44. Zhu, L.Z. Meng*, F. Zhang, P. Markowski, 2017: The influence of sea- and land-breeze circulations on the diurnal variability of precipitation over a tropical island (2015), Atmospheric Chemistry and Physics, 17, 13213–13232, 



J43. Huang, Y.Z. Meng, J. Li, W. Li*, L. BaiM. Zhang , and X. Wang, 2017: Distribution and variability of satellite-derived signals of isolated convection initiation over central Eastern China, Journal of Geophysical Research: Atmospheres, 122,11357–11373.



J42. Bao, X.,Y. Luo*, J. Sun, Z. MengJ. Yue, 2017: Assimilating Doppler Radar Observations with an Ensemble Kalman Filter for Convection-permitting Prediction of Convective Development in a Heavy Rainfall Event during the Pre-summer Rainy Season of South China, Science China Earth Sciences, 60, 1866–1885.



J41. Yu, H., H. Wang, Z. Meng*, M. Mu, X. Huang, X. Zhang, 2017: A WRF-based tool for forecast sensitivity to initial perturbation: the conditional non-linear optimal perturbations versus the first singular vector method and comparison to MM5, Journal of Atmospheric and Oceanic Technology, 34, 187–206.



J40. Yue, J.Z. Meng*, C. Yu, L. Cheng, 2017: Impact of Coastal Radar Observability on the Forecast of Track and Rainfall of Typhoon Morakot (2009) using a WRF-based EnKF Data Assimilation, Advances in Atmospheric Sciences, 34(1), 66–78.



J39. Yue, J.Z. Meng*, 2017: Impact of Assimilating Taiwan Coastal Radar Radial Velocity on the Forecast of Typhoon Morakot (2009) in Southeastern China using a WRF-based EnKF, Science China Earth Sciences, 60(2), 315–327.



J38. He, Z., Q. Zhang*, L. Bai, and Z. Meng, 2017: Characteristics of mesoscale convective systems in central East China and their reliance on atmospheric circulation patterns, International Journal of Climatology, 37(7), 3276–3290.




J37. 郑永光*, 朱文剑, 姚聃, 孟智勇, 薛明, 赵坤, 伍志方, 王啸华, 郑媛媛, 2016: 风速等级标准与2016年6月23日阜宁龙卷强度估计, 气象, 42(11), 1289–1303.

Zheng*,Y., W. Zhu, D. Yao, Z. Meng, M. Xue, K. Zhao, Z. Wu, X. Wang, and Y. Zheng, 2016: Wind Speed Scales and Rating of the Intensity of the 23 June 2016 Tornado in Funing County, Jiangsu Province, Meteorological Monthly (in Chinese), 42(11), 1289–1303


J36. Ai, Y., W. Li*, Z. Meng, J. Li, 2016: Life Cycle Characteristics of MCSs in Middle East China Tracked by Combining Geostationary Satellite and Precipitation Estimations, Monthly Weather Review, 144, 2517–2530.



J35. Zhang, Y.Z. Meng, P. Zhu, T. Tao, G. Zhai*, 2016: Mesoscale modeling study of severe convection over complex terrain, Advances in Atmospheric Sciences, 33(11), 1259–1270.



J34. Yu, H.Z. Meng*, 2016: Key Synoptic-scale Features Influencing the High-impact Heavy Rainfall in Beijing, China on 21 July 2012, Tellus A, 68, 31045.



J33. 郑永光*, 田付友, 孟智勇, 薛明, 姚聃白兰强, 周晓霞, 毛旭, 王明筠, 2016: “东方之星”客轮翻沉事件周边区域风灾现场调查与多尺度特征分析, 气象, 42(1), 1–13.

Zheng*,Y., F. Tian, Z. Meng, M. Xue, D. YaoL. Bai, X. Zhou, X. Mao, and M. Wang, 2016: Survey and Multi-scale Characteristics of Wind Damage Caused by Convective Storms in the Surrounding Area of the Capsizing Accident of Cruise Ship “Dongfangzhixing”, Meteorological Monthly (in Chinese), 42(1), 1–13.



J32. Meng*, Z.D. YaoL. Bai, Y. Zheng, M. Xue, X. Zhang, K. Zhao, F. Tian, and M. Wang, 2016: Wind Estimation around the Shipwreck of the "Oriental Star" Based on Field Damage Survey and Radar Observations, Science Bulletin, 61(4). doi:10.1007/s11434-016-1005-2.


J31. Zhang, Y., F. Zhang, D. Stensrud, and Z. Meng*, 2016: Intrinsic Predictability of the 20 May 2013 Tornadic Thunderstorm Event in Oklahoma at Storm Scale, Monthly Weather Review, 144, 1273–1298.



J30. Zhu, L., Q. Wan, X. Shen, Z. Meng*, F. Zhang, Y. Weng, Y. Gao, Y. Zhang and J. Yue, 2016: Prediction and Predictability of a High-impact Western Pacific Landfalling Typhoon Vicente (2012) through Convection-permitting Ensemble Assimilation of Doppler Radar Velocity, Monthly Weather Review, 14421–43.




J29. Zhang Y., F. Zhang, D. Stensrud, and Z. Meng*, 2015: Practical Predictability of the 20 May 2013 Tornadic Thunderstorm Event in Oklahoma: Sensitivity to Synoptic Timing and Topographical InfluenceMonthly Weather Review, 143, 2973–2997.


C4. Z. Meng*, F. Zhang, 2015: Ensemble-Based Data Assimilation. In: Gerald R. North (editor-in-chief), John Pyle and Fuqing Zhang (editors), Encyclopedia of Atmospheric Sciences, 2nd edition, Vol 2, pp. 241–247.



C3. Z. Meng*, 2014: Recent Progress on Squall Lines in East China, "The Global Monsoon System: Research and Forecast" 3rd edition, World Scientific Series on Asia-Pacific Weather and Climate, accepted.


C2. Z. Meng*, Y. Zhang, 2014: The Formation,  Development and Movement of Squall Lines Preceding Tropical Cyclone. In: Unusual Changes of Landfalling Typhoons, Science Press, in press.


J28. Bei, N., G. Li, Z. Meng, Y. Weng, M. Zavala and L. Molina, 2014: Impacts of using an ensemble Kalman filter on air quality simulations along the California-Mexico border region during Cal-Mex 2010 Field Campaign, The Science of the total environment, 499, 141–153.



J27. Zhang, Y.Z. Meng*, F. Zhang and Y. Weng,2014: Predictability of tropical cyclone intensity evaluated through 5-year forecasts with a convection-permitting regional-scale Model in the Atlantic Basin, Weather and Forecasting, 29, 1003–1023.



J26. Meng*, Z. and D. Yao, 2014: Damage Survey, Radar and Environment Analyses on the First-ever Documented Tornado in Beijing during the Heavy Rainfall Event of 21 July 2012, Weather and Forecasting, 29, 702–724.



J25. Huang, L. and Z. Meng*, 2014: Quality of the target area for metrics with different nonlinearity in a mesoscale convective system, Monthly Weather Review, 142, 2379–2397.




J24. Meng*, Z., D. Yan, and Y. Zhang, 2013: General features of squall lines in East China, Monthly Weather Review,141,1629–1647.



J23. Wu, D., Z. Meng* and D. Yan, 2013: The predictability of a squall line in South China on 23 April 2007, Advances in Atmospheric Sciences, 30, 485–502.



J22. 李玉焕, 张朝林, 仲跻芹, 孟智勇, 2013: 北京地区暴雨个例的观测敏感区研究, 气候与环境研究, 18(5), 651–661. doi: 10.3878/j.issn.1006-9585.2012.12020

Li, Y., C. Zhang, J. Zhong and Z. Meng, 2013: Case study on observation sensitive region of heavy rainfall in Beijing area, Climatic and Environmental Research (in Chinese),18(5), 651–661. doi:10.3878/j.issn.1006-9585.2012.12020


J21. 吴多常孟智勇2013: 2007年423广东飑线的移动和地面中尺度结构特征分析北京大学学报(自然科学版)49, 463–470.

Wu, D. and Z. Meng*, 2013: On the movement and mesoscale surface structure of a squall line on 23 April 2007 in GuangdongActa Scientiarum Naturalium Universitatis Pekinensis (in Chinese), 49, 463–470.



C1. Z. Meng*, D. Wu, 2013: Mesoscale Analyses on A Severe Squall Line in South China on 24 April 2007In: R. Zhang, X. Zhou, Y. Ni (editors), South China Heavy Rainfall Experiment (SCHeREX), China Meteorological Press, 217–229.



J20. Meng*, Z., F. Zhang, P. Markowski, D. Wu and K, Zhao, 2012: A Modeling Study on the Development of a Bowing Structure and Associated Rear Inflow within a Squall Line over South ChinaJournal of the Atmospheric Sciences, 69, 1182–1207.



J19. Meng*, Z. and Y. Zhang, 2012: On the Squall Lines Preceding Landfalling Tropical Cyclones in ChinaMonthly Weather Review, 140, 445–470.




J18. Meng, Z. and F. Zhang*,2011: Limited-area Ensemble-based data assimilationMonthly Weather Review, 139, 2025–2045.




J17. Gao, S., Z. Meng*, F. Zhang and L. F. Bosart, 2009: Observational Analysis of Heavy Rainfall Mechanisms Associated with Severe Tropical Storm Bilis (2006) after Its LandfallMonthly Weather Review, 137, 1881–1897.



J16. 高拴柱, 孟智勇, 杨贵名, 2009: 台风麦莎渤海转向的可预报性研究, 气象, 35(2), 8–14.

Gao, S., Z. Meng* and G. Yang, 2009: A study on the predictability of the recurvature of typhoon Matsa in Bohai, Meteorological Monthly (in Chinese), 35(2), 8–14.



J15. Zhang*, F., Y. Weng, Z. Meng, J. A. Sippel and C. H. Bishop, 2009: Cloud-resolving Hurricane Initialization and Prediction through Assimilation of Doppler Radar Observations with an Ensemble Kalman Filter: Humberto (2007)Monthly Weather Review, 137, 2105–2125.




J14. Meng, Z. and F. Zhang*, 2008: Test of an ensemble-Kalman filter for mesoscale and regional-scale data assimilation. Part IV: Comparison with 3DVar in a month-long experimentMonthly Weather Review, 136, 3671–3682.



J13. Meng, Z. and F. Zhang*, 2008: Test of an ensemble-Kalman filter for mesoscale and regional-scale data assimilation. Part III: Comparison with 3DVar for a real-data case studyMonthly Weather Review, 136, 522–540.




J12. Meng, Z. and F. Zhang*, 2007: Test of an ensemble-Kalman filter for mesoscale and regional-scale data assimilation. Part II: Imperfect-model experimentsMonthly Weather Review, 135, 1403–1423.



J11. Hawbliztel, D., F. Zhang*, Z. Meng and C. A. Davis, 2007: Probabilistic evaluation of the dynamics and predictability of mesoscale convective vortex event of 10-13 June 2003, Monthly Weather Review, 135, 1544–1563.




J10. Zhang*, F., Z. Meng and A. aksoy, 2006: Test of an ensemble Kalman filter for mesoscale and regional-scale data assimilation. Part I: perfect model experiments, Monthly Weather Review, 134, 722–736.




J9. 张胜军, 徐祥德, 吴庆梅, 孟智勇, 2004: "中国登陆台风外场科学试验"风廓线仪探测资料在四维同化中的初步应用研究. 应用气象学报. 15(Z1):101–109.

Zhang S., X. Xu, Q. Wu and Z. Meng, 2004: Research on atmospheric profile observations of "CLATEX" in four-dimensional data assimilation, Journal of Applied Meteorological Sciences, 15(suppl.) (in Chinese), 101–109.




J8. 徐祥德, 翁永辉, 孟智勇, 周明煜, 2002: 卫星资料变分分析'98·7'武汉-黄石地区特大暴雨中尺度锋面对流特征, 大气科学, 26(6), 845–856.

Xu Xiangde, Weng Yonghui, Z. Meng and Zhou Mingyu, 2002: A study on the mesoscale convection in a torrential rain event in Wuhan-Huangshi in July 1998, Chinese J. Atmos. Sci.(in Chinese), 26(6), 845–856.



J7. 孟智勇, 徐祥德, 陈联寿, 2002: 9406号台风与中纬度系统相互作用的中尺度特征, 气象学报, 60(1), 31–39. 

Meng, Z., Xu Xiangde and Chen Lianshou, 2002: Meso-scale characteristics of the interaction between TC Tim (9406) and mid-latitude circulation, Acta Meteorologica Sinica (in Chinese), 60(1), 31–39.



J6. Meng, Z., Chen Lianshou and Xu Xiangde, 2002: Recent progress on tropical cyclone research in China, Advances in Atmospheric Sciences, 19(1), 103–110.



J5. 孟智勇, 徐祥德, 陈联寿, 2002: 卫星亮温资料四维同化方案及其对'7·20'武汉特大暴雨的模拟试验, 大气科学, 26(5), 663–676.

Meng, Z., Xu Xiangde and Chen Lianshou, 2002: TBB-nudging four dimensional data assimilation method and simulation experiment on "7.20" heavy rain process in Wuhan in 1998, Chinese J. Atmos. Sci. (in Chinese), 26(5), 663–676.




J4. 孟智勇, 徐祥德, 陈联寿, 2001: 一种适于较强台风的切向风廓线方案及其对异常台风路径的数值模拟研究, 大气科学, 25(2),193–199.

Meng, Z., Xu Xiangde and Chen Lianshou, 2001: A kind of tangential wind profile for strong tropical cyclone and its contribution to abnormal tropical cyclone track simulation, Chinese J. Atmos. Sci. (in Chinese), 25(2),193–199.



J3. 陈联寿, 孟智勇, 2001: 我国热带气旋研究十年进展大气科学, 25(3), 420–432.

Chen Lianshou and Z. Meng, 2001: An overview on tropical cyclone research progress in China during the past ten years, Chinese J. Atmos. Sci. (in Chinese), 25(3), 420–432.



J2. 孟智勇, 徐祥德, 陈联寿, 1998: 台湾岛地形诱生次级环流系统对热带气旋异常运动的影响机制, 大气科学, 22(2): 156–168.

Meng, Z., Xu Xiangde and Chen Lianshou, 1998: Mechanism of the impact of induced cyclone system around Taiwan island topography on tropical cyclone unusual motion, Chinese J. Atmos. Sci. (in Chinese), 22(2), 156–168.




J1. Meng, Z., Nagata Masashi and Chen Lianshou, 1996: A numerical study on the formation and development of island-induced cyclone and its impact on typhoon structure change and motion, Acta Meteorologica Sinica (in Chinese), 10(4), 430–443.