研究成果2014

学术论文发表

    • 学术论文:39
    • SCI/SCIE论文:34
    • 国内核心刊物论文:5
  • Qiao, Y., C. Zhang, M. Jian*, 2014: Role of the 10–20-day oscillation in sustained rainstorms over Hainan, China in October 2010. Advances in Atmospheric Sciences, 32(3), 363-374.[pdf]
  • He, Z, and R. Wu*, 2013: Seasonality of interannual atmosphere-ocean interaction in the South China Sea. J. Oceanography, 69(6), 699-712.[pdf]
  • He, Z., and R. Wu*, 2014: Indo-Pacific remote forcing in summer rainfall variability over the South China Sea. Clim.Dyn., 42(9), 2323-2337.[pdf]
  • Wu, R., W. Chen, G. Wang, and K.-M. Hu, 2014: Relative contribution of ENSO and East Asian winter monsoon to the South China Sea SST anomalies during ENSO decaying years. J. Geophys. Res., 119(19), 5046-5064.[pdf]
  • Wu, R., P. Zhao, and G. Liu, 2014: Change in the contribution of spring snow cover and remote oceans to summer air temperature anomaly over Northeast China around 1990. J. Geophys. Res., 119(2), 663-676.[pdf]
  • Wu, R., G. Liu, and P. Zhao, 2014: Contrasting Eurasian spring and summer climate anomalies associated with western and eastern Eurasian spring snow cover changes. J. Geophys. Res., 119(12), 7410-7424.[pdf]
  • Chen, Z., R. Wu*, W. Chen, 2014: Distinguishing interannual variations of the northern and southern modes of the East Asian winter monsoon. J. Climate, 27(2), 835-851.[pdf]
  • Chen, Z., R. Wu*, and W. Chen, 2014: Impacts of autumn Arctic sea ice concentration changes on the East Asian winter monsoon variability. J. Climate, 27(14), 5433-5450.[pdf]
  • Chen, G., Y. N. Takayabu, and C. Yokoyama, 2014: Synoptic-Scale Dual Structure of Precipitable Water along the Eastern Pacific ITCZ. J. Climate, 27(16), 6288–6304.[pdf]
  • Chen, G., and C. Chou, 2014: Joint Contribution of Multiple Equatorial Waves to Tropical Cyclogenesis over the Western North Pacific. Mon. Wea. Rev., 142(1), 79–93.[pdf]
  • Wu, L., C. Chou, C.-T. Chen, R.-H. Huang, T. R. Knutson, J. J. Sirutis, S. T. Garner, C. K., C.-J. Lee, and Y.-C. Feng, 2014. Simulations of the Present and Late-Twenty-First-Century Western North Pacific Tropical Cyclone Activity Using a Regional Model. J. Climate, 27(9), 3405–3424.[pdf]
  • Hu, W. T., R., Wu, and Y., Liu, 2014. Relation of the South China Sea Precipitation Variability to Tropical Indo-Pacific SST Anomalies during Spring-to-Summer Transition. J. Climate, 27(14), 5451–5467.[pdf]
  • Li Qian and XueYongkang, 2014. The Observed and Simulated Major Summer Climate Features in Northwest China and Their Sensitivity to Land Surface. Journal of Meteorological Research, 28(5), 836-848.[pdf]
  • Yaokun Li and Jiping Chao, 2014. Two-dimensional energy balance model and its application tosome climatic issues. Journalof Meteorological Research, 28(5), 747-761.[pdf]
  • LI Jiangnan,YANG Chaofeng, LI Fangzhou, HE Qihua, LI Weibiao, 2013. A comparison of summer precipitation structures over the South China Sea and the East China Sea based on tropical rainfall measurement mission. ActaOceanologicaSinica, 32(11), 41-49.[pdf]
  • LI Jiangnan, ZHENG Yanping, LI Fangzhou, GUO Feiyun, LI Weibiao, 2014. The structural characteristics of precipitation in Asian-Pacific’s three monsoon regions measured by tropical rainfallmeasurement mission. ActaOceanologicaSinica, 33(3), 111-117.[pdf]
  • SHEN Han, LI Jiang-nan, WEN Zhi-ping, CAI Rong-shuo, 2014. Numerical Simulation OfThe Impact Of Latent Heat Fluxanomaly In The Tropical Western Pacific Onprecipitation Over South China In Junes. Journal Of Tropical Meteorology, 20(3), 236-241.[pdf]
  • Gao, Z., Z.-Z. Hu, J. Zhu, S. Yang, R.-H. Zhang, Z. Xiao, and B. Jha, 2014. Variability of summer rainfall in Northeast China and its connection with spring rainfall variability in the Huang-Huai region and Indian Ocean SST. J. Climate, 27(18), 7086-7101.[pdf]
  • Liu, X., T. Wu, S. Yang, Y. Cheng, Q. Li, and X. Liang, 2014. Relationships between interannual and intraseasonal variations of the Asian – western Pacific summer monsoonhindcasted by BCC CSM1.1(m). Adv. Atmos. Sci., 31(5), 1051-1064.[pdf]
  • Wang, F., S. Yang, and T. Wu, 2014. Radiation budget biases in AMIP5 models over the East Asian monsoon region. J. Geophys. Res., 119(23), 13400-13426.[pdf]
  • Wang, Z., S. Yang, Z. Ke, X. Jiang, 2014. Large-scale atmospheric and oceanic conditions for extensive and persistent Icing events in China. J. Appl. Meteor. Climatol., 53(12), 2698-2709.[pdf]
  • Yang, S., and X. Jiang, 2014. Prediction of eastern and central Pacific ENSO events and their impacts on East Asian climate by the NCEP Climate Forecast System. J. Climate, 27(12), 4451-4472.[pdf]
  • Zhao, S., and S. Yang, 2014. Dynamical prediction of the early-season rainfall over southern China by the NCEP Climate Forecast System. Wea. Forecasting, 29(6), 1391-1401.[pdf]
  • Shiqiu Peng, Xiangde Xu, Yu-Kun Qian, Zhijuan Lai, Sai Hao, Shumin Chen, etc. 2014. On the mechanisms of the recurvature of super typhoon Megi. Scientific Reports, DOI: 10.1038/srep04451.[pdf]
  • Yineng Li, Shiqiu Peng, Jia Wang, and Jing Yan, 2014. Impacts of nonbreaking wavestirring-induced mixing on the upper ocean thermal structure and typhoon intensity in the South China Sea. Journal of Geophysical Research: Oceans. 119(8), 5052–5070.[pdf]
  • P. Huang, 2014. Regional response of annual-mean tropical rainfall to global warming. Atmospheric Science Letters, 15,103-109.[pdf]
  • P. Huang, P. Wang, K. Hu, G. Huang, Z. Zhang, Y. Liu, and B. Yan. 2014. An Introduction to the Integrated Climate Model of the Center for Monsoon System Research and Its Simulated Influence of El Ni ˜no on East Asian–Western North Pacific Climate. Adv. Atmos. Sci, 31, 1136-1146.[pdf]
  • 林爱兰,谷德军,郑彬,李春晖,张晶晶, 2014. 广东前汛期暴雨水汽输送异常变化特征. 热带气象学报, 30(6), 1001-1010.[pdf]
  • 胡丽华,李江南,温之平, 陈文,吴乃庚, 2014. 南海地区定常行星波特征及其与南海夏季风的关系. 热带气象学报, 30(4), 747-754.[pdf]
  • Wu, H., and S. Yang, 2014. Winter temperature anomalies in South China and its relation to atmospheric circulation and SST. J. Trop. Meteor, 30(6), 1069-1076 (in Chinese).[pdf]
  • 陈俊文, 蔡扬, 白毅平, 林文实, 2014. 南海冬季一次海面大风天气的WRF模式预报检验. 海洋预报, 31(4), 32-40.[pdf]
  • Chen,J., Z. Wen*, R. Wu et al, 2014. Influence of northward propagating 25-90 day and quasi-biweekly oscillations on eastern China summer rainfall. Climate Dynamics, DOI 10.1007/s00382-014-2334-y, in press.[pdf]
  • He, C., T. Zhou, 2014. Responses of the western North Pacific Subtropical High to global warming under RCP4.5 and RCP8.5 scenarios projected by 33 CMIP5 models: The dominance of tropical Indian Ocean – tropical western Pacific SST gradient. J. Climate, DOI:10.1175/JCLI-D-13-00494.1, in press.[pdf]
  • LI YaoKun and CHAO JiPing, 2014. The dynamical evolution theory of the isolated oasis system. Science China: Earth Sciences. DOI: 10.1007/s11430-014-4941-1, in press.[pdf]
  • Zuo, Z., S. Yang, R. Zhang, D. Xiao, D. Guo, and L. Ma, 2014. Response of summer rainfall over China to spring snow anomalies over Siberia in the NCEP CFSv2 reforecast. Quart. J. Roy. Meteor. Soc.,DOI:10.1002/qj.2413, in press.[pdf]
  • Shiqiu Peng, Yukun Qian, R. Lumpkin, Ping Li, Dongxiao Wang, Yan Du, 2014. Characteristics of the near-surface currents in the Indian ocean as deduced from satellite-tracked surface drifters. Part II: Lagrangian statistics. J. Geophys. Res., in press.[pdf]
  • Shumin Chen, Youyu Lu, Weibiao Li, Zhiping Wen, 2014. Identification and analysis of high-frequency oscillations in the eyewalls of tropical cyclones. Adv. Atmos. Sci., 32, doi: 10.1007/s00376-014-4063-x, in press.[pdf]
  • Shao, X., P. Huang, and R. H. Huang, 2014. Role of the phase transition of intraseasonal oscillation on the South China Sea summer monsoon onset. Climate Dynamics, DOI: 10.1007/s00382-014-2264-8, in press.[pdf]
  • He Bian, and Hu Wen-Ting, 2014. Assessment of the Summer South Asian High in Eighteen CMIP5 Models.Atmospheric and Oceanic Science Letters. doi:10.3878/AOSL20140069, in press.[pdf]

课题研究进展

课题一 全球变化背景下南海及周边地区春夏季节转换和气候变异特征、早期信号和物理过程12120016_143849507121_2
课题二 全球变化背景下海气相互作用对南海及周边地区春夏季节转换和气候变异的影响12120016_143849507121_2
课题三 我国南方及青藏高原与东南亚陆面过程对南海及周边地区春夏季节转换和气候变异的影响12120016_143849507121_2
课题四 南海及周边地区气候变化对全球气候的反馈作用12120016_143849507121_2