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1、DU, Q. Zhang, Y. Ying, and Y. Yang, 2012:Characteristics of low-level jets in Shanghai during the 2008-2009 warm seasons as inferred from wind profiler radar data


2、Chen,B., J. Yang, and J. Pu, 2013a:Statistical characteristics of raindrop size distribution in the Meiyu season observed in Eastern China

3、Chen,X,K. Zhao, W.-C. Lee, B. Jong-Dao Jou, M. Xue, and P. R. Harasti, 2013b:The Improvement to the Environmental Wind and Tropical Cyclone Circulation Retrievals with the Modified GBVTD (MGBVTD) Technique.

4、Chen.Y.S. R. Rizvi, X.-Y. Huang, J. Min, and X. Zhang, 2013c:Balance characteristics of multivariate background error covariances and their impact on analyses and forecasts in tropical and Arctic regions

5、Hou,T.F,Kong, X. Chen, and H. Lei, 2013a:Impact of 3DVAR data assimilation on the prediction of heavy rainfall over Southern China.

6、Hou,T,H. Lei, Z. Hu, and Q. Feng, 2013b:Observations and modeling of ice water content in a mixed-phase cloud system.

7、Jin, L., H. Lei, F. Kong,J. Yang, and Z. Hu, 2013:Cloud seedability study with a dual-model system.

8、Li, X. and X. Shen, 2013:Rain Microphysical Budget in the Tropical Deep Convective Regime:A 2-D Cloud-Resolving Modeling Study.

9、Li, X., J. Ming, Y. Wang, K. Zhao, and M. Xue, 2013:Assimilation of T-TREC-retrieved wind data with WRF 3DVAR for the short-term forecasting of typhoon Meranti (2010) near landfall.

10、Meng, Z., D. Yan, and Y. Zhang,2013:General features of squall lines in East China

11、Ping, F., X. Tang, and Z. Luo,2013:Phase differences between rainfall and its sources in the tropical deep convective regime:A partitioning analysis based on the surface rainfall budget

12、Ran, L., N. Li,and S. Gao, 2013a:PV‐based diagnostic quantities of heavy precipitation:Solenoidal vorticity and potential solenoidal vorticity

13、Ran, L., S. Gao, and J. Cao, 2013b:Continuity and momentum equations for moist atmospheres.

14、Shao, A., X. Qiu, C. Qiu, and D. Xu, 2013:A study on reducing update frequency of the forecast samples in the ensemble-based 4DVar data assimilation method.

15、Shen, X., T. Qing, and X. Li, 2013:Effects of clouds, sea surface temperature, and its diurnal variation on precipitation efficiency.

16、Shu, Y., Y. Pan, and J. Wang, 2013:Diurnal variation of MCSs over Asia and the western Pacific Region.

17、Wang, H., M. Wei, G. Li, S. Zhou, and Q. Zeng, 2013a:Analysis of precipitable water vapor from GPS measurements in Chengdu region:Distribution and evolution characteristics in autumn

18、Wang, J., Y. Pan, and S. Wang, 2013b:A numerical study of the evolution of a mesoscale convective vortex on the Meiyu front.

19、Wu,D., Z. Meng, and D. Yan, 2013:The predictability of a squall line in South China on 23 April 2007

20、Xu,D., Z. Liu, X.-Y. Huang, J. Min, and H. Wang, 2013a:Impact of assimilating IASI radiance observations on forecasts of two tropical cyclones.

21、Xu, X., M. Xue, and Y. Wang, 2013b:Gravity wave momentum flux in directional shear flows over three‐dimensional mountains:Linear and nonlinear numerical solutions as compared to linear analytical solutions

22、Xue, M. and J. Dong, 2013:Assimilating best track minimum sea level pressure data together with Doppler radar data using an ensemble Kalman filter for Hurricane

23、Yang, S., B. Chen, and S. Gao, 2013:Diagnostic Analyses and Applications of the Moisture Helicity and the Thermal Helicity for Two Strong “Sauna” Weather Processes in Northern China.

24、Zhang, S., Y. Liu, and W. Zhang, 2013:Ensemble square root filter assimilation of near-surface soil moisture and reference-level observations into a coupled land surface-boundary layer model

25、Zhao, Y., Q. Zhang, Y. Du, M. Jiang, and J. Zhang, 2013:Objective analysis of circulation extremes during the 21 July 2012 torrential rain in Beijing

26、Zhong, W. and R. Wu,  2013:Newtonian jerky dynamics and inertial instability.

27、Zhu, K.,Y. Pan, M. Xue, X. Wang, J. S. Whitaker, S. G. Benjamin, S. S. Weygandt, and M. Hu, 2013:A regional GSI-based ensemble Kalman filter data assimilation system for the Rapid Refresh configuration:Testing at reduced resolution

28、Zheng, Y. and J. Chen, 2013:A climatology of deep convection over south china and the adjacent waters during summer

29、 陈炯, 郑永光, 张小玲,朱佩君, 2013:中国暖季短时强降水分布和日变化特征及其与中尺度对流系统日变化关系分析.

30、楚艳丽, 王振会, 冉令坤,郝寿昌, 2013:台风莫拉克 (2009) 暴雨过程中位势切变形变波作用密度诊断分析和预报应用.

31、丁治英, 高松, 常越, 2013a:MCC 转为带状 MCSs 过程中水平涡度的变化与暴雨的关系.

32、丁治英, 王小龙, 高松, 郭宏杰, 史永强, 2013b:青藏高原夏季带状 MCSs 的分类以及形成原因.

33、顾媛,魏鸣, 2013:南京一次雷雨的闪电特征与多尺度资料分析.

34、 金龙,赵坤, 谢利平, 张小玲, 杨洪平, 2013:一次弓形回波结构和演变机制的观测分析.

35、蓝渝, 张涛, 郑永光, 毛冬艳, 朱文剑, 林隐静, 张小玲, 2013:对流天气中尺度过程分析规范和支撑技术.

36、李娜,冉令坤, 周玉淑, 高守亭, 2013:北京 “7.21” 暴雨过程中变形场引起的锋生与倾斜涡度发展诊断分析.

37、刘佳, 沈新勇, 张大林,许映龙, 毕明玉, 2013:台风 “麦莎” 的强度对台风前部飑线发展过程影响的研究.

38、刘彦华, 张述文,毛璐, 薛宏宇, 2013:评估两类模式对陆面状态的模拟和估算

39、梅海霞, 2013:双参数微物理方案在 WRF 单柱模式中的模拟试验和对比研究

40、冉令坤, 李娜, 高守亭, 2013a:华东地区强对流降水过程湿斜压涡度的诊断分析

41、冉令坤,  刘璐, 李娜, 齐彦斌, 2013b:台风暴雨过程中位势散度波作用密度分析和预报应用研究.

42、任丽, 潘益农,  王承伟, 马国忠, 2013:高纬度强对流与对流层上层水汽变化关系的数值模拟研究.

43、沈新勇, 陈明诚, 王勇, 吉振明, 2013a:人为气溶胶的直接气候效应对南亚夏季风影响的研究.

44、沈新勇, 黄文彦, 黄伟, 陈明诚, 2013b:亚洲地区沙尘和人为气溶胶的分布及气候效应.

45、沈新勇,梅海霞, 庆涛, 李小凡, 2013c:用亮温反演云物理量划分对流-层状降水的数值模拟研究方案.

46、沈新勇, 刘佳, 秦南南, 冯琎, 2013d:台风麦莎登陆后粘性摩擦对正压特征波动的影响.

47、陶祖钰,  郑永光, 2013:“7·2北京特大暴雨的预报问题

48、王勇, 丁治英, 陈明诚, 2013:一次梅雨锋降水雨带演变动力学特征分析.

49、魏鸣, 雷欢欢,程周杰, 宁应惠, 齐琳琳, 2013:能量位涡在雷雨大风天气诊断分析中的应用.

50、 吴丹娃, 潘益农, 吴林林, 严小静, 2013:2011年6月23日沿淮强对流天气中尺度辐合特征模拟研究

51、吴贤笃, 冉令坤, 李娜, 王勇,2013:一次东风波暴雨的动力因子预报研究.

52、薛宏宇, 张述文, 刘彦华, 2013:有参数误差时估算土壤湿度的集合平方根滤波同化方法.

53、俞小鼎, 2013:短时强降水临近预报的思路与方法.

54、张楠, 沈新勇,杨宇红, 王涛, 2013:2008年6月一次华南暴雨过程的云分辨模拟分析

55、张述文, 曹帮军, 2013:变分方法估算西北半干旱区地表热通量的适用性研究

56、张涛, 蓝渝, 毛冬艳, 郑永光, 唐文苑, 曹莉, 张小玲, 谌芸, 方翀, 周晓霞, 2013:对流天气环境场分析业务技术规范的改进与产品集成系统支撑技术.


57、Chen, B. and Y. Yin, 2014:Can we modify stratospheric water vapor by deliberate cloud seeding?

58、Chen, X., K. Zhao, and M. Xue, 2014:Spatial and temporal characteristics of warm season convection over Pearl River Delta region, China, based on 3 years of operational radar data

59、Ding, Z., R. Xing, H. Xu, and Y. Gao, 2014:Analysis of effect of environmental potential vorticity located at south edge of south Asia high on intensification of tropical cyclones

60、Du, Y., Q. Zhang,Y. Chen, Y. Zhao, and X. Wang, 2014:Numerical simulations of spatial distributions and diurnal variations of low-level jets in China during early summer.

61、Feng, G., C. P. P, X. Huang,N. A. Jacobs, and M. zhong, 2014:A relocation-based initialization scheme to improve track-forecasting of tropical cyclones

62、Guo, C., H. Xiao, H. Yang, and Q. Tang,2014:Simulation of the microphysical processes and effect of latent heat on a heavy rainfall event in Beijing.

63、Hou, T., H. Lei, Z. Hu, and J. Zhou,2014:Aircraft Observations of Ice Particle Properties in Stratiform Precipitating Clouds.

64、Huang, B., D. Chen,X. Li, and C. Li, 2014a:Improvement of the semi-Lagrangian advection scheme in the GRAPES model:Theoretical analysis and idealized tests.

65、Huang, L. and Z. Meng, 2014:Quality of the target area for metrics with different nonlinearities in a mesoscale convective system.

66、Huang, W., X. Shen, W. Wang, and W. Huang, 2014b:Comparison of the thermal and dynamic structural characteristics in boundary layer with different boundary layer parameterizations.

67、Jiang, X., H. Yuan, M. Xue, X. Chen, and X. Tan, 2014:Analysis of a heavy rainfall event over Beijing during 21-22 July 2012 based on high resolution model analyses and forecasts

68、Jin, L.,F. Kong, H. Lei, and Z. Hu, 2014:A methodological study on using weather research and forecasting (WRF) model outputs to drive a one-dimensional cloud model.

69、Li, X., X. Shen,and J. Liu, 2014a:Effects of doubled carbon dioxide on rainfall responses to large-scale forcing:A two-dimensional cloud-resolving modeling study

70、Li, X., G. Zhai,S. Gao, and X. Shen, 2014b:A new convective–stratiform rainfall separation scheme.

71、Liu, J., X. Shen,and X. Li, 4:Radiative Effects of Water Clouds on Heat, Cloud Microphysical and Surface Rainfall Budgets Associated with Pre-Summer Torrential Rainfall.

72、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.

73、Ming, J., J. A. Zhang, R. F. Rogers, F. D. Marks, Y. Wang, and N. Cai, 2014:Multiplatform observations of boundary layer structure in the outer rainbands of landfalling typhoons.

74、Ping, F., Z. Luo, X. Tang, and L. Hu, 2014a:A simulation of the merger of convective clouds in the torrential rainfalls associated with the Meiyu front.

75、Ping, F., X. Tang, S. Gao, and Z. Luo, 2014b:A comparative study of the atmospheric circulations associated with rainy-season floods between the Yangtze and Huaihe River Basins.

76、Qing,T., X. Shen, W. Wang, and W. Huang, 2014:Characteristics of Lagrangian Transportation in a Tropical Deep Convective Process During TWP‐ICE.

77、Ran, L. and X. Li, 2014a:Sensitivity of cloud-resolving precipitation simulations to uncertainty of radiation calculation:Effects of large-scale forcing

78、Ran, L. and N. Li, 2014b:PV-based wave-activity density and its application to tracing heavy precipitation.

79、Ran, L.Y. Qi, and N. Li, 2014a:Influence of Mass and Radius of Ice Crystals on Hydrometeors,Internal Energy,and Kinetic Energy:A Numeric Model Study

80、Ran, L., S. Hao, and Y. Qi, 2014b:Analysis of pseudomomentum wave-activity density in a heavy rainfall event in East China.

81、Shen, X., W. Huang, T. Qing, W. Huang, and X. Li, 2014:A modified scheme that parameterizes depositional growth of ice crystal:A modeling study of pre-summer torrential rainfall case over Southern China.

82、Su, X.., H. Yuan, Y. Zhu, Y. Luo, and Y. Wang, 2014:Evaluation of TIGGE ensemble predictions of Northern Hemisphere summer precipitation during 2008–2012.

83、Tang, Q., H. Xiao, C. Guo, and F. Liang, 2014a:Characteristics of the raindrop size distributions and their retrieved polarimetric radar parameters in northern and southern China.

84、Tang, X., W. Lee, and M. Bell, 2014b:A squall-line-like principal rainband in Typhoon Hagupit (2008) observed by airborne Doppler radar.

85、Tao, Z., Q. Xiong, Y. Zheng, and H. Wang, 2014:Overview of advances in synoptic meteorology Four stages of development in conceptual models of frontal cyclones

86、Wang, M., M. Xue, K. Zhao, and J. Dong, 2014a:Assimilation of T-TREC-retrieved winds from single-Doppler radar with an ensemble Kalman filter for the forecast of Typhoon Jangmi (2008).

87、Wang, Q. and Z. Tan, 2014:Multi‐scale topographic control of southwest vortex formation in Tibetan Plateau region in an idealized simulation.

88、Wang, Y., Z. Ding, X. Li, X. Shen, and Y. Fan, 2014b:Preliminary analysis on the intensity and structure of typhoon Morakot (2009) during its landing process.

89、Wu, J., M. Wei, X. Hang, J. Zhou, P. Zhang, and N. Li, 2014:The first observed cloud echoes and microphysical parameter retrievals by China’s 94-GHz cloud radar.

90、Yang, S., S. Gao, and B. Chen, 2014a:The derivation of moist baroclinic Ertel-Rossby invariant in fast manifold and its application to typhoons.

91、Yang, S., S. Gao, and C. Lu, 2014b:A generalized frontogenesis function and its application.

92、Zhai, G., X. Li, P. Zhu, H. Shen, and Y. Zhang, 2014:Surface rainfall and cloud budgets associated with mei-yu torrential rainfall over eastern China during June 2011.

93、Zheng, K. and B. Chen, 2014:Sensitivities of tornadogenesis to drop size distribution in a simulated subtropical supercell over eastern China.

94、Zheng, Y., J. Chen, and Z. Tao, 2014:Distribution characteristics of the intensity and extreme intensity of tropical cyclones influencing China.

95、Zhong, W. and D. Zhang, 2014:An Eigenfrequency Analysis of Mixed Rossby–Gravity Waves on Barotropic Vortices.

96、Zhou, J., H. Lei, L. Ji, and T. Hou, 2014a:A Fast Inverse Algorithm Based on the Multigrid Technique for Cloud Tomography.

97、Zhou, S., M. Wei, L. Wang, C. Zhao, and M. Zhang, 2014b:Sensitivity Analysis of the VVP Wind Retrieval Method for Single-Doppler Weather Radars.

98、Zuo, Q., S. Gao, and D. Lü, 2014a:The effect of the subtropical jet on the rainfall over southern China in January 2008

99、Zuo,  Q., S. Gao, and D. Lü, 2014b:Eddy kinetic energy study of the snowstorm over Southern China in January 2008.

100、鲍艳松, 李紫甜, 王冬梅, 闵锦忠, 严婧, 2014a:基于 FY-3 热红外数据的地表温度反演方法研究.

101、鲍艳松, 王晓丽,闵锦忠, 徐建军, 陆其峰, 2014b:风云三号卫星微波大气温度探测仪资料偏差订正方法研究.

102、毕明玉, 沈新勇,袁媛, 丁治英, 2014:2008年台风“风神”强迫次级环流的诊断分析

103、 曾腊梅, 2014:背景场误差协方差模拟对资料同化及数值预报效果的影响,

104、陈程, 肖辉,冯亮, 李宗飞, 周筠珺, 2014:北京地区强冰雹风暴的双偏振特征观测分析

105、陈明诚, 孙照渤, 沈新勇, 王勇, 吉振明, 2014:近 22a 人为气溶胶对东亚地区夏季风环流影响的数值模拟研究.

106、陈耀登, 曾腊梅, 高玉芳, 2014:纬度依赖背景场误差协方差及其对台风同化和预报的影响研究.

107、方翀, 郑永光,林隐静, 朱文剑, 2014:导致区域性雷暴大风天气的云型分类及统计特征分析.

108、高玉芳, 陈耀登, 叶金印, 2014:JOPLE 算法结合双偏振雷达在不同降水过程中的测雨效果分析.

109、何邓新,邵爱梅, 2014:判断大气要素场相似度的相似面积比方法.

110、 黄文彦, 沈新勇,王卫国, 黄伟, 2014:边界层参数化方案对边界层热力和动力结构特征影响的比较.

111、姜晓曼, 袁慧玲, 薛明, 陈曦, 谭晓光, 2014:北京 “7.21” 特大暴雨高分辨率模式分析场及预报分析

112、黎慧琦, 张莹,朱佩君, 苏涛, 尹金方, 翟国庆, 2014:2012年7月发生于浙南山地的短飑线过程研究

113、李虎超, 2014:BP 神经网络在预报误差订正中的应用研究

114、 刘梦娟, 陈敏,2014:BJ-RUC 系统对北京夏季边界层的预报性能评估

115、 罗义, 梁旭东,陈明轩, 2014:单多普勒雷达径向风同化的改进

116、 马秀梅, 李文兆,赵坤, 唐晓文, 杨洪平, 2014:非线性 VAD 反演低层风廓线拟合阶数优化方法

117、 庆涛, 沈新勇, 王卫国, 黄文彦, 2014:TWP-ICE 试验期间一次热带深对流过程的拉格朗日输送特征.

118、 冉令坤, 齐彦斌,郝寿昌, 2014:“7.21”暴雨过程动力因子分析和预报研究

119、 邵颖斌, 沈新勇, 刘佳, 黄伟, 2014:台风 “鲇鱼” 路径突变前后等熵位涡非对称结构的对比分析

120、 沈新勇, 黄伟, 陈明诚, 黄文彦, 2014a:人为气溶胶的直接辐射效应及其对南亚冬季风的影响.

121、 沈新勇, 黄文彦,王卫国, 郭春燕, 2014b:.利用 TWP-IBE 试验资料对比两种边界层参数化方案.

122、 盛杰, 毛冬艳,沈新勇, 蓝渝, 何立富, 2014:我国春季冷锋后的高架雷暴特征分析

123、 孙敏, 袁慧玲,2014:WRF 模式中微物理和积云对流参数化方案对台风 “莫拉克” 模拟敏感性分析.

124、 田付友, 郑永光,毛冬艳, 谌芸, 钟水新, 2014:基于 Γ 函数的暖季小时降水概率分布.

125、 王恬, 张述文,毛璐, 毛伏平, 2014:同化卫星对地敏感通道微波亮温观测的模拟试验.

126、 魏鸣, 张明旭,张培昌, 郭巍, 周生辉, 2014:机载雷达风切变识别算法研究及在机场预报中的应用.

127、 吴举秀, 魏鸣, 周杰, 2014:六角形冰晶的 94 GHz 毫米波后向散射特性的模拟计算分析.

128、 吴启树, 连东英, 刘爱鸣, 覃丽, 沈新勇, 2014:湿位涡子项在华南前汛期两类暴雨中的诊断分析.

129、 俞小鼎,2014:关于冰雹的融化层高度

130、 张小玲, 余蓉, 杜牧云, 2014:梅雨锋上短时强降水系统的发展模态

131、赵小平, 沈新勇,朱晶晶, 庆涛, 郭学峰, 2014:2009年豫南一次强暴雨过程的位涡方程诊断分析

132、 周生辉, 2014:单多普勒天气雷达 VVP 风场反演算法研究


133、Bao, Y., J. Xu, A. Powell Jr, M. Shao, J. Min, and Y. Pan, 2015:Impacts of AMSU-A, MHS and IASI data assimilation on temperature and humidity forecasts with GSI–WRF over the western United States

134、Bi, M., T. Li, M. Peng, and X. Shen, 2015:Interactions between Typhoon Megi (2010) and a Low-Frequency Monsoon Gyre.

135、Chang, H., S. Yang, H. Yuan, P. Lin, and Y. Liou, 2015:Analysis of the Relative Operating Characteristic and Economic Value Using the LAPS Ensemble Prediction System in Taiwan.

136、Chen, X., K. Zhao, M. Xue, B. Zhou, X. Huang, and W. Xu, 2015a:Radar‐observed diurnal cycle and propagation of convection over the Pearl River Delta during Mei‐Yu season

137、Chen, B., J. Wang, and D. Gong, 2015:Raindrop Size Distribution in a Midlatitude Continental Squall Line Measured by Thies Optical Disdrometers over East China.

138、Chen, Y., H. Wang, J. Min, X.-Y. Huang, P. Minnis, R. Zhang, J. Haggerty, and R. Palikonda, 2015b:Variational Assimilation of Cloud Liquid-Ice Water Path and Its Impact on NWP

139、Du, Y., Y. Chen, and Q. Zhang, 2015a:Numerical simulations of the boundary layer jet off the southeastern coast of China.

140、Du, Y., R. Rotunno, and Q. Zhang, 2015b:Analysis of WRF-simulated diurnal boundary layer winds in eastern China using a simple 1D model.

141、Guo, C., H. Xiao, H. Yang, and Q. Tang, 2015a:Observation and modeling analyses of the macro-and microphysical characteristics of a heavy rain storm in Beijing

142、Guo, C., H. Xiao, L. Feng, H. Yang, Y. Zhu, and Z. Li, 2015:Influence of graupel-hail parameters on the simulation of a convective system over coastal South China in summer

143、Han, Y., Y. Wu, T. Wang, B. Zhuang, S. Li, and K. Zhao, 2015a:Impacts of elevated-aerosol-layer and aerosol type on the correlation of AOD and particulate matter with ground-based and satellite measurements

144、Han, Y., Y. Wu, T. Wang, C. Xie, K. Zhao, B. Zhuang, and S. Li, 2015b:Characterizing a persistent Asian dust transport event Optical properties and impact on air quality through the ground-based and satellite measurements over Nanjing,China

145、Hou, T., F. Kong, X. Chen, H. Lei, and Z. Hu, 2015:Evaluation of radar and automatic weather station data assimilation for a heavy rainfall event in southern China

146、Li, C., D. Chen, X. Li, and J. Hu, 2015a:Effects of terrain-following vertical coordinates on high-resolution NWP simulations.

147、Li, X., G. Zhai, S. Gao, and X. Shen, 2015b:Decadal trends of global precipitation in the recent 30 years.

148、Li, X., J. Ming, M. Xue, Y. Wang, and K. Zhao, 2015c:Implementation of a dynamic equation constraint based on the steady state momentum equations within the WRF hybrid ensemble‐3DVar data assimilation system and test with radar T‐TREC wind assimilation for tropical Cyclone Chanthu (2010).

149、Liang, J. and L. Wu, 2015:Sudden Track Changes of Tropical Cyclones in Monsoon Gyres:Full-Physics, Idealized Numerical Experiments.

150、Liu, L., L. Ran, and X. Sun, 2015:Analysis of the structure and propagation of a simulated squall line on 14 June 2009.

151、Ming, J., J. A. Zhang, and R. F. Rogers, 2015:Typhoon kinematic and thermodynamic boundary layer structure from dropsonde composites.

152、Xu, D. ,X.Huang,H.Wang,Mizzi, A. P., and J.Min, 2015:Impact of assimilating radiances with the WRFDA ETKF-3DVAR hybrid system on prediction of two typhoons in 2012.

153、Pan, Y., M. Xue, and G. Ge, 2015:Incorporating Diagnosed Intercept Parameters and the Graupel Category within the ARPS Cloud Analysis System for the Initialization of Double-Moment Microphysics;Testing with a Squall Line over South China.

154、Ran, L. and F. Ping, 2015:A pseudoenergy wave-activity relation for ageostrophic and non-hydrostatic moist atmosphereProject supported by the National Basic Research Program of China (Grant No. 2013CB430105), the Key Program of the Chinese Academy of Sciences (Grant No. KZZD-EW-05), the National Natural Science Foundation of China (Grant No. 41175060), and the Project of CAMS, China (Grant No. 2011LASW-B15).

155、Shen, F. and J. Min, 2015:Assimilating AMSU-a radiance data with the WRF hybrid En3DVAR system for track predictions of Typhoon Megi (2010).

156、Tian, F., Y. Zheng, T. Zhang, X. Zhang, D. Mao, J. Sun, and S. Zhao, 2015:Statistical characteristics of environmental parameters for warm season short-duration heavy rainfall over central and eastern China.

157、Wang, L., M. Wei, and T. Yang, 2015a:An advanced algorithm for recognizing wind shear using airborne Doppler weather radar.

158、Wang, L., M. Wei, T. Yang, and P. Liu, 2015b:Effects of Atmospheric Refraction on an Airborne Weather Radar Detection and Correction Method

159、Xu, X., M. Xue, and Y. Wang, 2015a:The genesis of mesovortices within a real-data simulation of a bow echo system.

160、Xu, X., M. Xue, and Y. Wang, 2015b:Mesovortices within the 8 May 2009 Bow Echo over the Central United States:Analyses of the Characteristics and Evolution Based on Doppler Radar Observations and a High-Resolution Model Simulation.

161、Yang, C., J. Min, and Y. Tang, 2015a:Evaluation of two modified Kalman gain algorithms for radar data assimilation in the WRF model

162、Yang, H., H. Xiao, and C. Guo, 2015b:Impacts of two ice parameterization schemes on the cloud microphysical processes and precipitation of a severe storm in northern China.

163、Yang, H., H. Xiao, and C. Guo, 2015c:Structure and evolution of a squall line in northern China:A case study

164、Yang, S., S. Gao, and C. Lu, 2015d:Investigation of the mei-yu front using a new deformation frontogenesis function.

165、Zhao, K., Q. Lin, W.-C. Lee, Y. Q. Sun, and F. Zhang, 2015:Doppler Radar Analysis of Triple Eyewalls in Typhoon Usagi (2013)

166、Zhu, F., G. Xu, X. Zheng, and Y. Wang, 2015a:Super-parameterization in GRAPES:The construction of SP-GRAPES and associated preliminary results

167、Zhu, K., Y. Yang, and M. Xue, 2015b:Percentile-based neighborhood precipitation verification and its application to a landfalling tropical storm case with radar data assimilation.

168、常春辉, 丁治英, 2015:2007—2012年夏季中国青藏高原以东地区MCC的分布特征

169、陈耀登, 赵幸, 闵锦忠, 范水勇, 王元兵, 曾腊梅, 2015:青藏高原和华东地区背景误差协方差特征的对比研究

170、陈悦丽, 陈德辉, 李泽椿, 黄俊宝, 2015:基于 Monte Carlo-SHALSTAB 模型的滑坡危险性评价——以福建省德化县为例.

171、丁治英, 王楠, 2015:两次飑线过程中短时强降水和冰雹强度差异及成因分析.

172、杜爱军, 魏鸣, 王炳赟, 2015:下击暴流的三维仿真和回波特征分析

173、范根昌, 肖辉, 吕峰, 秦彦硕, 刘亚男, 2015:联合遥感技术对 X 波段雷达反射率的衰减订正.

174、范雯杰, 俞小鼎, 2015:中国龙卷的时空分布特征

175、高玉芳, 陈耀登, 蒋义芳, 彭涛, 袁士友, 2015:太湖流域雷达雨量数据水平尺度的选取.

176、侯淑梅, 俞小鼎, 张少林, 刘畅, 王俊, 万明波, 2015:山东中西部后向发展雷暴初步研究.

177、李虎超, 邵爱梅, 何邓新, 王越亚, 2015:BP 神经网络在估算模式非系统性预报误差中的应用.

178、李佳颖, 沈新勇, 王东海, 李俊, 2015:2008年春夏华南地区MCS时空分布和活动特征分析

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180、李少英, 张述文, 邵毅, and 刘源, 2015:2002年7月江淮流域一次暴雨的模拟诊断分析.

181、李宗飞, 肖辉, 姚振东, 冯亮, 2015:X 波段双偏振雷达反演雨滴谱方法研究.

182、刘红艳, 魏鸣, 2015:多普勒雷达风场资料在临近预报中的应用.

183、刘璐, 冉令坤, 周玉淑, 高守亭, 2015:北京 “7.21” 暴雨的不稳定性及其触发机制分析.

184、刘瑞翔, 丁治英, 孙凌光, 黄海波, 2015:夏季江淮地区中尺度对流系统的统计特征分析.

185、罗爱文, 朱科锋, 方茸, 金龙,赵坤, 2015:江淮地区弓状回波的分布和环境特征分析

186、毛伏平, 张述文, 叶丹, 杨茜茜, 2015:模式时间关联误差对集合平方根滤波估算土壤湿度的影响.

187、毛璐, 张述文, 王恬, 刘彦华, 2015:集合平方根滤波同化 AMSU-A 辐射率的观测系统模拟试验.

188、梅海霞, 沈新勇, 王卫国, 黄小梅, 2015:WRF 单柱模式中单参数方法对热带对流模拟能力的影响.

189、闵锦忠, 刘盛玉, 毕坤, 杜宁珠, 2015a:基于 Hybrid EnSRF-En3DVar 的雷达资料同化研究.

190、闵锦忠, 王修莹, 沈菲菲, 周北平, 2015b:.多普勒雷达资料同化对江苏一次飑线过程的数值模拟.

191、彭丽春, 李万彪, 叶晶, 成董, 李宇明, 曹立佳, 2015:地表向下短波和长波辐射遥感参数化方案研究综述.

192、庆涛, 沈新勇, 黄文彦, 黄明策, 2015:2011年梅汛期一次暴雨过程的对流涡度矢量方程诊断分析

193、沈菲菲, 闵锦忠, 许冬梅, 王世璋, 2015:WRF-Hybrid 背景误差协方差调整在台风同化及预报中的应用研究.

194、沈新勇, 梅海霞, 王卫国, 黄文彦, 2015:双参数微物理方案的冰相过程模拟及冰核数浓度的影响试验.

195、田付友, 郑永光, 张涛, 毛冬艳, 唐文苑, 周庆亮, 孙建华, 赵思雄, 2015:短时强降水诊断物理量敏感性的点对面检验.

196、王丛梅, 俞小鼎, 2015:2013年7月1日河北宁晋极端短时强降水成因研究

197、王霁吟, 陈宝君, 宋金杰, 王元, 2015:基于再分析资料的我国龙卷发生环境和通用龙卷指标.

198、王磊, 魏鸣, 杨涛, 刘平, 2015:机载 X 波段雷达探测强风切变的仿真建模与分析

199、王秀明, 俞小鼎, 周小刚, 2015:中国东北龙卷研究:环境特征分析

200、王宇虹, 徐国强, 贾丽红, 赵阳, 2015:太行山对北京 “7.21” 特大暴雨的影响及水汽敏感性分析的数值研究.

201、魏鸣, 韦凯华, 王金虎, 2015:基于 Matlab 平台的多普勒雷达强度资料三维可视化.

202、温龙, 刘溯, 赵坤, 李杨, 李力, 2015:两次降水过程的微降雨雷达探测精度分析.

203、吴亚丽, 陈德辉, 2015:潜热加热纳近方法在地面降水资料同化中的应用.

204、吴玉琴, 吴立广, 梁佳, 2015:利用位涡趋势法诊断台风 “莫拉克”(2009) 的移动.

205、席宝珠, 俞小鼎, 孙力, 许洁, 2015:我国阵风锋类型与产生机制分析及其主观识别方法.

206、邢蕊, 丁治英, 徐海明, 2015:0704号热带气旋远距离降水的数值模拟诊断分析

207、杨丽丽, 杨毅, 张廷龙, 王莹, 2015:基于双多普勒雷达及闪电资料分析一次强降水过程.

208、姚爽, 陈敏, 王建捷, 2015:L 波段分钟数据在 WRF 模式中的变分同化应用试验.

209、郑永光, 薛明, 陶祖钰, 2015:美国 NOAA 试验平台和春季预报试验概要.

210、周冠博, 冉令坤, 高守亭, 李娜, 2015:台风莫拉克动力结构的高分辨率数值模拟及诊断分析.

211、周生辉, 魏鸣, 张培昌, 张明旭, 赵畅, 2015:多普勒雷达反演风场的风切变识别研究

212、朱莉, 张腾飞, 丁治英, 2015:云南两次灾害性特大暴雨不稳定机制的对比分析.


213、Ai, Y., W. Li, Z. Meng, and J. Li, 2016:Life Cycle Characteristics of MCSs in Middle East China Tracked by Geostationary Satellite and Precipitation Estimates

214、Chen, X., FuqingZhang, and K. Zhao, 2016a:Diurnal variations of land-sea breeze and its related precipitation over South China

215、Chen, X., K. Zhao, J. Sun, B. Zhou, and W. C. Lee, 2016b:Assimilating surface observations in a four-dimensional variational Doppler radar data assimilation system to improve the analysis and forecast of a squall line case.

216、Chen, Y., R. Zhang, D. Meng, J. Min, and L. Zhang, 2016a:Variational Assimilation of Satellite Cloud Water-Ice Path and Microphysical Scheme Sensitivity to the Assimilation of A Rainfall Case

217、Chen, Y., X. Xia, J. Min, X. Y. Huang, and S. R. H. Rizvi, 2016c:Balance characteristics of multivariate background error covariance for rainy and dry seasons and their impact on precipitation forecasts of two rainfall events.

218、Chen, Y. L., D. H. Chen, L. I. Ze-Chun, and J. B. Huang, 2016d:Preliminary studies on the dynamic prediction method of rainfall-triggered landslide.

219、Ding, Z., S.GAO,Y.Chang, 2016a:Relationship between the variation in horizontal vorticity and heavy rain during the process of mcc turning into banded mcss.

220、Gao, Y., Y. Chen, L. Zhang, and T. Peng, 2016:Radar-rainfall estimation from S-band radar and its impacts on runoff simulation of a heavy rainfall event in the Huaihe River Basin

221、He, Z., Q. Zhang, L. Bai, and Z. Meng, 2016:Characteristics of mesoscale convective systems in central East China and their reliance on atmospheric circulation patterns.

222、Hu, X. M., X. Li, M. Xue, D. Wu, and J. D. Fuentes, 2016:The Formation of Barrier Winds East of the Loess Plateau and Their Effects on Dispersion Conditions in the North China Plains.

223、Huang, H., G. Zhang, K. Zhao, and S. E. Giangrande, 2016a:A Hybrid Method to Estimate Specific Differential Phase and Rainfall With Linear Programming and Physics Constraints

224、Huang, W., G. Zhai, S. Gao, X. Shen, and X. Li, 2016b:Precipitation Climatology over Zhejiang, Fujian and Jiangxi of China in June.

225、Li, M., F. Ping, J. Chen, and L. Xu, 2016a:A simulation study on the rapid intensification of Typhoon Megi (2010) in vertical wind shear.

226、Li, N., S. Gao, and L. Ran, 2016b:A PV-gradient related quantity in moist atmosphere and its application in the diagnosis of heavy precipitation.

227、Li, N., L. Ran, and S. Gao, 2016c:The impact of deformation on vortex development in a baroclinic moist atmosphere.

228、Li, X., P. Zhu, G. Zhai, R. Liu, X. Shen, W. Huang, and D. Wang, 2016:Testing parameterization schemes for simulating depositional growth of ice crystal using Koenig and Takahashi parameters a pre-summer rainfall case study over Southern China

229、Liu, L., L. Ran, and S. Gao, 2016:Evolution of Instability before and during a Torrential Rainstorm in North China.

230、Meng, Z., and Coauthors, 2016:Wind estimation around the shipwreck of Oriental Star based on field damage surveys and radar observations.

231、Ming, ZHAO, Mingjung, WANG, Zhaohui, Yongguang, and ZHENG, 2016:Recent Significant Tornadoes in China.

232、Ran, L., and C. Chen, 2016:Diagnosis of the Forcing of Inertial-gravity Waves in a Severe Convection System.

233、Shao, A. M., C. J. Qiu, X. J. Wang, and Y. X. Zhang, 2016:Using the Newtonian relaxation technique in numerical sensitivity studies.

234、Shen, X., W. Huang, C. Guo, and X. Jiang, 2016:Precipitation Responses to Radiative Effects of Ice Clouds A Cloud-Resolving Modeling Study of a Pre-Summer Torrential Precipitation Event

235、Sijia, L. I., Y. Wang, H. Yuan, J. Song, and X. U. Xin, 2016:Ensemble Mean Forecast Skill and Applications with the T213 Ensemble Prediction System.

236、Su, T., and G. Zhai, 2016:The Role of Convectively Generated Gravity Waves on Convective Initiation:A Case Study

237、Sun, R., H. Yuan, X. Liu, and X. Jiang, 2016:Evaluation of the latest satellite-gauge precipitation products and their hydrologic applications over the Huaihe River basin

238、Tang, X. B., F. Ping, and Z. X. Luo, 2016:A modified cumulus parameterization scheme and its application in the simulations of the heavy precipitation cases

239、Wang, M., M. Xue, and K. Zhao, 2016a:The impact of T-TREC-retrieved wind and radial velocity data assimilation using EnKF and effects of assimilation window on the analysis and prediction of Typhoon Jangmi (2008).

240、Wang, M., K. Zhao, M. Xue, G. Zhang, S. Liu, L. Wen, and G. Chen, 2016b:Precipitation Microphysics Characteristics of a Typhoon Matmo (2014) Rainband after Landfall over Eastern China based on Polarimetric Radar Observations.

241、Wang, Q., M. Xue, and Z. Tan, 2016c:Convective initiation by topographically induced convergence forcing over the Dabie Mountains on 24 June 2010.

242、Wang, W., X. Shen, and W. Huang, 2016d:A Comparison of Boundary-Layer Characteristics Simulated Using Different Parametrization Schemes.

243、Wang, Y., J. Min, Y. Chen, X. Y. Huang, M. Zeng, and X. Li, 2016e:Improving precipitation forecast with hybrid 3DVar and time-lagged ensembles in a heavy rainfall event.

244、Wen, G., M. Oue, A. Protat, J. Verlinde, and H. Xiao, 2016a:Ice particle type identification for shallow Arctic mixed-phase clouds using X-band polarimetric radar.

245、 Wen, L., K. Zhao, G. Zhang, M. Xue, B. Z. Liu, and X. Chen, 2016b:Statistical Characteristics of Raindrop Size Distributions Observed in East China during the Asian Summer Monsoon Season from the 2D-Video Disdrometer and Micro-rain Radar

246、Xu, X., M. Xue, Y. Wang, and H. Huang, 2016:Mechanisms of Secondary Convection within a Mei‐Yu Frontal Mesoscale Convective System in Eastern China

247、Xue, M., 2016:Preface to the Special Issue on the “Observation,Prediction and Analysis of severe Convection of China” (OPACC) National “973” Project

248、Yang, S. U., F. Ping, X. Y. Shen, and C. S. Miao, 2016:Real-time simulation and mechanistic analysis of a squall line case in East China.

249、Yu, H., and Z. Meng, 2016:Key synoptic-scale features influencing the high-impact heavy rainfall in Beijing China on 21 July 2012

250、Yuan, H., M. Sun, and Y. Wang, 2016:Assessment of the benefits of the Chinese Public Weather Service.

251、Zhang, S., B. Cao, W. Zhang, Q. Cao, Y. Liu, and C. Qiu, 2016a:A variational method for estimating surface turbulent heat fluxes with a consideration of energy storage,

252、Zhang, Y., F. Zhang, D. J. Stensrud, and Z. Meng, 2016b:Intrinsic Predictability of the 20 May 2013 Tornadic Thunderstorm Event in Oklahoma at Storm Scales

253、Zhang, Y., Y. Xie, H. Wang, D. Chen, and Z. Toth, 2016:Ensemble transform sensitivity method for adaptive observations.

254、Zhang, Y., Z. Meng, P. Zhu, S. U. Tao, and G. Zhai, 2016c:Mesoscale Modeling Study of Severe Convection over Complex Terrain.

255、Zheng, Y., M. Xue, B. Li, J. Chen, and Z. Tao, 2016:Spatial characteristics of extreme rainfall over China with hourly through 24-hour accumulation periods based on national-level hourly rain gauge data.

256、Zhiwei, H. E., Q. Zhang, and J. Sun, 2016:The Contribution of Mesoscale Convective Systems to Intense Hourly Precipitation Events during the Warm Seasons over Central East China.

257、Zhu, K., and M. Xue, 2016:Evaluation of WRF-based Convection-Permitting Multi-Physics Ensemble Forecasts over China for an Extreme Rainfall Event on 21 July 2012 in Beijing.

258、鲍艳松, 钱程, 闵锦忠, 侯叶叶, 陆其峰, 2016:利用地基微波辐射计资料反演0-10km大气温湿廓线试验研究

259、曹倩, 杨茜茜, 叶丹, 张述文, 2016a:一次飑线过程的雷达观测和数值模拟分析.

260、曹倩, 张述文, 曹帮军, 叶丹,邱学兴, 2016b:超强不稳定和弱切变环境下一次飑线过程的雷达资料同化与分析.

261、陈耀登, 陈晓梦, 闵锦忠, 邢建勇, 2016a:各向异性背景场误差协方差构建及在“凡亚比”台风的应用.

262、陈耀登, 陈晓梦, 曾腊梅, 王元兵, 2016b:背景场误差样本模拟对同化及数值预报效果的影响.

263、陈悦丽, 陈德辉, 李泽椿, 吴亚丽,黄俊宝, 2016:降雨型滑坡的集合预报模型及其初步应用的试验研究.

264、丁治英, 张月萌,赵向军, 2016b:西太平洋大尺度环境场对TC生成初期的影响.

265、丁治英, 王一颉,刘瑞翔, 2016c:青藏高原一次MCC转MCV过程研究

266、韩颂雨, 魏鸣,张蕾, 2016:飑线回波结构与环境风垂直切变的关系

267、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

268、李琴, 杨帅, 崔晓鹏,冉令坤, 2016:四川暴雨过程动力因子指示意义与预报意义研究.

269、李爽, 丁治英, 戴萍, 刘云桦, 韩颖, 2016:东北冷涡的最新研究进展.

270、刘瑞翔, 丁治英,王一颉, 2016:2007—2013年夏季江淮地区MCS和MCV与暴雨关系的统计特征.

271、卢新玉, 魏鸣, 王秀琴,向芬, 2016:TRMM-3 B43 降水产品在新疆地区的适用性研究

272、沈新勇, 梅海霞, 庆涛,李小凡, 2016a:Convective-stratiform rainfall partition by radiance-derived cloud content:a modeling study.

273、沈新勇, 王涛, 赵南, 黄伟, 王乙舒,崔妍, 2016b:1980-2010年冬季北极涛动季节内振荡的成因分析

274、宋丽芳, 鲍艳松, 蒋志昊, 侯叶叶,陆其峰, 2016:ATMS卫星资料偏差订正方法研究.

275、宋敏敏, 郑永光, 2016:我国中东部3-9月云-地闪电密度和强度分布特征.

276、孙哲,魏鸣, 2016:春季与夏季两次雷暴大气结构及地闪特征对比.

277、唐细坝, 平凡,罗哲贤, 2016:中尺度模式积云参数化方案的改进及其在暴雨模拟中的应用.

278、王磊, 魏鸣,杨涛, 2016:机载气象雷达探测强风切变的自适应杂波抑制方法.

279、王越亚,邵爱梅, 2016:SVD-En3DVar同化方法在一次飑线过程中的应用

280、姚晓娟, 魏鸣, 杜爱军,卢美圻, 2016:偏振雷达参量对融化层回波的探测敏感性分析.

281、张述文, 刘源, 曹帮军,李少英, 2016:GLDAS和CMIP5产品的中国土壤湿度-降水耦合分析及变化趋势

282、张同, 鲍艳松,陆其峰, 2016:IASI卫星资料同化对江淮暴雨预报的试验研究.

283、张雅斌, 马晓华,冉令坤, 候建忠, 2016:关中地区两次初夏区域性暴雨过程特征分析

284、郑永光, 田付友,孟智勇,薛明,姚聃,白兰强, 2016a:“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.

285、郑永光, 朱文剑, 姚聃,孟智勇,薛明,赵坤, 2016b:风速等级标准与2016年6月23日阜宁龙卷强度估计.

286、周爱明, 鲍艳松, 蒋志昊, 魏鸣,陆其峰, 2016:附加气溶胶信息以改进地表温度反演算法.

287、周丹丹,魏鸣, 2016:20120705河南省区域性暴雨中尺度特征分析.

288、周康辉, 郑永光,蓝渝, 2016:基于闪电数据的雷暴识别、追踪与外推方法.



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    291、Chen, G., and Coauthors, 2017a: Improving Polarimetric C-Band Radar Rainfall Estimation with Two-Dimensional Video Disdrometer Observations in Eastern China. Journal of Hydrometeorology, 18,1375-1391.

    292、Chen, X., F. Zhang, and K. Zhao, 2017b: Influence of Monsoonal Wind Speed and Moisture Content on Intensity and Diurnal Variations of the Mei-yu Season Coastal Rainfall over South China. Journal of the Atmospheric Sciences.

    293、Chen, X., Y. Wang, K. Zhao, and D. Wu, 2017c: A Numerical Study on Rapid Intensification of Typhoon Vicente (2012) in the South China Sea. Part I: Verification of Simulation, Storm-Scale Evolution, and Environmental Contribution. Monthly Weather Review, 145, 877-898.

    294、Li, N., L. Ran, L. Zhang, and S. Gao, 2017: Potential deformation and its application to the diagnosis of heavy precipitation in mesoscale convective systems. 大气科学进展, 34, 894-908.

    295、Luo, L., M. Xue, K. Zhu, and B. Zhou, 2017: Explicit Prediction of Hail using Multi‐Moment Microphysics Schemes for a Hailstorm of 19 March 2014 in Eastern China. Journal of Geophysical Research Atmospheres,122,7560-7581.

    296、Su, T., and G. Zhai, 2016: The role of convectively generated gravity waves on convective initiation: a case study. Monthly Weather Review, 145.

    297、Wang, Z., Y., Huang, J.,Hong, and B.,Wan, 2017a: A Cloud Detection Scheme for the Chinese Carbon Dioxide Observation Satellite(TANSAT). 大气科学进展, 34, 16-25.

    298、Wang, B., and Coauthors, 2017b: Characteristics and possible formation mechanisms of severe storms in the outer rainbands of Typhoon Mujiga (1522). 气象学报英文版, 31, 612-624.

    299、Wang, Y. X., M. Wei, Z. H. Wang, S. Zhang, and L. X. Liu, 2017c: Novel Scanning Strategy for Future Spaceborne Doppler Weather Radar With Application to Tropical Cyclones. IEEE Journal of Selected Topics in Applied Earth Observations & Remote Sensing, PP, 1-9.

    300、Wen, G., H. Xiao, H. Yang, Y. Bi, and W. Xu, 2017a: Characteristics of summer and winter precipitation over northern China. Atmospheric Research, 197.

    301、Wen, J., and Coauthors, 2017b: Evolution of Microphysical Structure of a Subtropical Squall Line Observed by a Polarimetric Radar and a disdrometer during OPACC in Eastern China. Journal of Geophysical Research Atmospheres, 122.

    302、Wen, L., K. Zhao, G. Zhang, S. Liu, and G. Chen, 2017c: Impacts of Instrument Limitations on Estimated Raindrop Size Distribution, Radar Parameters, and Model Microphysics during Mei-Yu Season in East China.Journal of Atmospheric & Oceanic Technology, 34, 1021-1037.

    303、Wu, L., X. Feng, and M. Liang, 2017: Insensitivity of the Summer South Asian High Intensity to a Warming Tibetan Plateau in Modern Reanalysis Datasets. Journal of Climate, 30, 3009-3024.

    304、Xie, Y., J. Shi, D. Ji, J. Zhong, and S. Fan, 2017: A Parameterized Microwave Emissivity Model for Bare Soil Surfaces. Remote Sensing, 9, 155.

    305、Xu, X., J. Song, Y. Wang, and M. Xue, 2017a: Quantifying the effect of horizontal propagation of three-dimensional mountain waves on the wave momentum flux using Gaussian beam approximation. Journal of the Atmospheric Sciences, 74,1783-1798.

    306、Xu, X., M. Xue, Y. Wang, and H. Huang, 2017b: Mechanisms of Secondary Convection within a Mei-Yu Frontal Mesoscale Convective System in Eastern China. Journal of Geophysical Research, 122, 47-64.

    307、Yang, C., Z. Liu, F. Gao, P. P. Childs, and J. Min: Impact of assimilating GOES imager clear-sky radiance with a rapid refresh assimilation system for convection-permitting forecast over Mexico. Journal of Geophysical Research Atmospheres.122, 5472-5490.

    308、Yang, H., H. Xiao, C. Guo, G. Wen, Q. Tang, and Y. Sun, 2017: Comparison of aerosol effects on simulated spring and summer hailstorm clouds. 大气科学进展, 34, 877-893.

    309、Yu, H., H. Wang, Z. Meng, M. Mu, X. Y. Huang, and X. Zhang, 2017: A WRF-Based Tool for Forecast Sensitivity to the Initial Perturbation: The Conditional Nonlinear Optimal Perturbations versus the First Singular Vector Method and Comparison to MM5. Journal of Atmospheric & Oceanic Technology, 34, 187-206.

    310、Zhang, Y., M. Chen, and J. Zhong, 2017: A Quality Control Method for Wind Profiler Observations toward Assimilation Applications. Journal of Atmospheric & Oceanic Technology, 34.

    311、Zhou, B., M. Xue, and K. Zhu, 2017a: A Grid-Refinement-Based Approach for Modeling the Convective Boundary Layer in the Gray Zone: A Pilot Study. Journal of the Atmospheric Sciences.

    312、Zhou, B., M. Xue, and K. Zhu, 2017b: A Physically Based Horizontal Subgrid-scale Turbulent Mixing Parameterization for the Convective Boundary Layer in Mesoscale Models. EGU General Assembly Conference.

    313、毕宝贵, 张小玲, 2017: 2016年超强厄尔尼诺背景下的强对流和极端降水天气特点. 科学通报, 928-937.

    314、陈俊, 平凡, 王秀春, 李梦夏, 2017: 台湾岛地形对“麦德姆”台风的影响. 大气科学, 41, 1037-1058.

    315、陈耀登, 王芳, 章丽娜, 高梦竹, 牛泽毅, 2017a: 弱垂直风切变下台前飑线不同发展阶段的热动力特征分析. 大气科学学报,40,19-528.

    316、陈耀登, 夏雪, 闵锦忠, 邢建勇, 孙涛, 2017b: 背景误差协方差变量平衡特征及其对台风同化和预报的影响. 热带气象学报, 33, 289-298.

    317、丁治英, 赵晓慧, 邢蕊, 高勇, 2014: Statistical Analysis Of Summer Tropical Cyclone Remote Precipitation Events In East Asia From 2000 to 2009 And Numerical Simulation. Journal of Tropical Meteorology, 37-46.

    318、丁治英, 夏蘩, 高松, 钱磊, 2017: 一次飑线过程中雷达回波的组织结构变化及成因分析. 热带气象学报, 33, 323-333.

    319、高梦竹, 陈耀登, 章丽娜, 王芳, 2017: 对流移入杭州湾后飑线发展机制分析. 气象, 43, 56-66.

    320、黄丽萍, 陈德辉, 邓莲堂, 徐枝芳, 于翡, 江源, 周非非, 2017: GRAPES_Meso V4.0主要技术改进和预报效果检验. 应用气象学报, 28, 25-37.

    321、李少英, 张述文, 毛伏平, 李彦霖, 2017: 采用不同样本集合同化地面观测对一次飑线过程的影响. 大气科学, 41, 236-250.

    322、李爽, 丁治英, 刘云桦, 田璐, 2017: 东北冷涡下辽宁省短时强降水统计与合成分析. 气象科学, 37, 70-77.

    323、林建, 周康辉, 郑永光, 王婷波: 基于模糊逻辑的雷暴大风和非雷暴大风区分方法. 气象, 43,781-791.

    324、沈伟, 袁慧玲, 陈曦, 王文清, 赵燕华, 2017: 江苏暖季短时强降水的时空不均匀特征分析. 大气科学学报,40,453-462.

    325、沈新勇, 张晓晨, 马铮, 李小凡, 2017: 一次江淮飑线天气过程的边界层湍流输送特征. 解放军理工大学自然科学版, 18, 103-110.

    326、唐文苑, 周庆亮, 刘鑫华, 朱文剑, 毛旭, 2017: 国家级强对流天气分类预报检验分析. 气象, 43, 67-76.

    327、危国飞, 朱佩君, 江佳, 刘会军, 2014: Analysis Of Ructure Evolution And Environmental Conditions Of Tropical Cyclones Over The Western North Pacific During Extratropical Transition. Journal of Tropical Meteorology, 77, 15-24.

    328、杨波, 郑永光, 蓝渝, 周康辉, 刘鑫华, 毛旭, 2017: 国家级强对流天气综合业务支撑体系建设. 气象, 43, 845-855.

    329、杨春, 闵锦忠, 刘志权, 2017: AMSR2辐射率资料同化对台风“山神”分析和预报的影响研究. 大气科学, 41, 372-384.

    330、叶丹, 张述文, 王飞洋, 毛伏平, 杨茜茜, 2017: 基于陆面模式Noah-MP的不同参数化方案在半干旱区的适用性. 大气科学, 41, 189-201.

    331、张小雯, 郑永光, 吴蕾, 周康辉, 2017: 风廓线雷达资料在天气业务中的应用现状与展望. 气象科技, 45, 285-297.

    332、赵光平, 姜兵, 王勇, 沈新勇, 2017: 西北地区东部夏季水汽输送特征及其与降水的关系. 干旱区地理(汉文版), 40, 239-247.

    333、郑永光, 陶祖钰, 俞小鼎, 2017: 强对流天气预报的一些基本问题. 气象, 43, 641-652.

    334、朱立娟, 龚建东, 黄丽萍, 陈德辉, 江源, 邓莲堂, 2017: GRAPES三维云初始场形成及在短临预报中的应用. 应用气象学报, 28, 38-51.