研究成果

2016:

学术论文发表

    • 学术论文:58
    • SCI/SCIE论文:46
    • 国内核心刊物论文:12
  • Jiepeng Chen, Zhiping Wen, Renguang Wu and Zesheng Chen. 2015. Influences of northward propagating 25-90-day and quasi-biweekly oscillations on Eastern China summer rainfall. Climate Dynamics, 45:105-124.[pdf]
  • Yuanyuan Guo , Zhiping Wen , Renguang Wu , Riyu Lu , Zesheng Chen. 2015. Impact of tropical Pacific precipitation on the East Asian upper-tropospheric westerly jet during the boreal winter. Journal of Climate. 28(16): 6457-6474.[pdf]
  • He C, Wu B, Li C, Lin A, Gu D, Zheng B, Zhou T. 2015. How much of the interannual variability of East Asian summer rainfall is forced by SST? Clim Dynam:1-11. doi:10.1007/s00382-015-2855-z.[pdf]
  • He C, Zhou T. 2015. Decadal change of the connection between summer western North Pacific Subtropical High and tropical SST in the early 1990s. Atmos Sci Lett 16 (3):253-259. doi:10.1002/asl2.550.[pdf]
  • He C, Zhou T, Lin A, Wu B, Gu D, Li C, Zheng B. 2015. Enhanced or Weakened Western North Pacific Subtropical High under Global Warming? Scientific Reports. doi:10.1038/srep16771.[pdf]
  • He C, Zhou T, Wu B. 2015. The Key Oceanic Regions Responsible for the Interannual Variability of the Western North Pacific Subtropical High and Associated Mechanisms. J. Meteor. Res. 29 (4): 562-575. doi: 10.1007/ s13351-015-5037-3.[pdf]
  • LIN Ai-lan*, LI Chun-hui, GU De-jun, Zheng Bin. 2015. Impact of tropical intraseasonal oscillations on the precipitation of Guangdong in Junes. Journal of Tropical Meteorology, 21(4): 326-336.[pdf]
  • Chen, Z., Wen, Z., Wu, R., Lin, X., Wang, J., 2015. Relative Importance of Tropical SST Anomalies in Maintaining the Western North Pacific Anomalous Anticycloneduring El Niño to La Niña transition years. Climate Dynamics, DOI 10.1007/s00382-015-2630-1.[pdf]
  • 林爱兰,谷德军,李春晖,郑彬,何超.2015. 广东6 月持续性暴雨期间的大气环流异常. 气象学报, 73(5): 289-299.[pdf]
  • 贾丹,简茂球.2015. 中国冬季月地面气温的年际变化. 气候与环境研究, 20(4): 454-464.[pdf]
  • Chen, S.-F., R. Wu, and W. Chen, 2015. the Changing relationship between interannual variations of the North Atlantic Oscillation and northern Tropical Atlantic SST. Journal of Climate, 28(2), 485-504.[pdf]
  • Ye, K., R. Wu, and Y. Liu, 2015. Interdecadal change of Eurasian snow, surface temperature and atmospheric circulation in late 1980s. J. Geophys. Res., 120(7), doi:10.1002/2015JD023148.[pdf]
  • Hu, W.-T., and R. Wu, 2015: Relationship between South China Sea precipitation variability and Tropical Indo-Pacific SST anomalies in the IPCC CMIP5 models during spring-to-summer transition. Adv. Atmos. Sci., 32(9), 1308-1318, doi:10.1007/s00376-015-4250-4.[pdf]
  • Wu, R., and Z. Chen, 2015: Intraseasonal SST variations in the South China Sea during boreal winter and impacts of the East Asian winter monsoon. J. Geophys. Res., 120(12), 5863-5878, doi:10.1002/2015JD023368.[pdf]
  • Chen, Z., R. Wu, and W. Chen, 2015: Effects of northern and southern components of the East Asian winter monsoon on SST changes in the western North Pacific. J. Geophys. Res.,120(9), 3888-3905, doi:10.1002/ 2015JD023149.[pdf]
  • Wu, L., Z.-P. Wen, and R. Wu, 2015: Influence of the monsoon trough on westward-propagating synoptic-scale disturbances over the western North Pacific. Part I: Observations. J. Climate, 28(18), 7108-7127, doi:10.1175/ JCLI-D-14-00806.1.[pdf]
  • Wu, R., and W.-T. Hu, 2015: Air-sea relationship associated with precipitation anomaly change and mean precipitation anomaly over the South China Sea and the Arabian Sea during the spring-to-summer transition. J. Climate, 28(18), 7161-7181, doi:10.1175/JCLI-D-15-0136.1.[pdf]
  • Ye, K.-H, and R. Wu, 2015: Contrast of local air-sea relationship between 10-20-day and 30-60-day intraseasonal oscillations during May-September over the South China Sea and the western North Pacific. Climate Dynamics, 45(11-12), 3441-3459, doi:10.1007/s00382-015-2549-6.[pdf]
  • Wu, L., Z.-P. Wen, and R. Wu, 2015: Influence of the monsoon trough on westward-propagating synoptic-scale disturbances over the western North Pacific. Part II: Energetics and numerical experiments. J. Climate, 28(23), 9332-9349, doi:10.1175/JCLI-D-14-00807.1.[pdf]
  • Chen, G. H. 2015: Comments on “Interdecadal change of the South China Sea summer monsoon onset”. J. Climate. 28, 9029-9035.[pdf]
  • Wang.X., G. H. Chen, R. H. Huang. 2015: Different characteristics of the quasi-biweekly oscillation over the South China Sea in two boreal summer stages. Theor. Appl. Climatol., doi: 10.1007/s00704-015-1550-7.[pdf]
  • Li, J.-Y., J.-Y.Mao, and G.-X. Wu, 2015: A case study of the impact of boreal summer intraseasonal oscillations on Yangtze River. Climate Dynamics, 44, 2683-2702, doi:10.1007/s00382-014-2425-9.[pdf]
  • Yong, Y.-Y., and J.-Y. Mao, 2015: Mechanistic analysis of the suppressed convective anomaly precursor associated with the initiation of primary MJO events over the tropical Indian Ocean. Climate Dynamics, doi:10.1007/ s00382-015-2612-3.[pdf]
  • Li, J.-Y., B.-Q. Liu, J.-D. Li, and J.-Y. Mao, 2015: A comparative study on the dominant factors responsible for the weaker-than-expected El Nino event in 2014. Advances in Atmospheric Sciences, 32, 1381-1390.[pdf]
  • Xie, F.-H., Z.-T.Fu, P. Liu, and J.-Y. Mao, 2015: Time irreversibility of mean temperature anomaly variations over China. Theoretical and Applied Climatology, doi:10.1007/s00704-014-1347-0.[pdf]
  • 郝赛, 毛江玉, 2015: 西北太平洋与南海热带气旋活动季节变化的差异及可能原因. 气候与环境研究, 20 (4): 380−392.[pdf]
  • Li Yaokun, Chao Jiping, 2015. The dynamical evolution theory of the isolated oasis system.Science China:Earth Sciences, 58(3), 436-447.[pdf]
  • Jiangnan Li,Kailu Wu ,Fangzhou Li ,Youlong Chen,Yanbin Huang, 2015, Cloud-scale simulation study on the evolution of latent heat processes of mesoscale convective system accompanying heavy rainfall: The Hainan case. Atmospheric Research., 169,331-339.[pdf]
  • Zhigang Wei, Wenjie Dong, 2015, Assessment of Simulations of Snow Depth in the Tibetan Plateau Using CMIP5 Multi-Models. Arctic, Antarctic, and Alpine Research, 47(4) ,611-625.[pdf]
  • 李玉梅, 彭玉麟, 简茂球, 曾沁, 2014. 中国南方地表感热通量的时空变化. 热带气象学报, 30(6), 1027-1036.[pdf]
  • 陈思, 简茂球, 2015. 影响华南前汛期降水异常的准双周振荡传播特征. 中山大学学报(自然科学版), 54(3), 130-137.[pdf]
  • 李耀锟, 巢纪平, 匡贡献, 2015. 城市热岛效应和气溶胶浓度的动力、热力学分析. 地球物理学报, 58(3), 729-740.[pdf]
  • 李倩, 孙菽芬, 2015. 陆面过程模型中垂直非均匀土壤的水分传输及相变的模拟. 大气科学, 39 (4), 827-838.[pdf]
  • 赵威, 赵海坤, 韦志刚等, 2015. MJO-西北太平洋热带气旋活动关系及其年代际变化. 热带气象学报, 31(2), 237-246.[pdf]
  • Chen, F., S. Yang, Z. Su, and B. He, 2015: A new single-channel method for estimating land surface temperature based on the image inherent information: the HJ-1B case. ISPRS J. Photogrammetry and Remote Sensing, 101, 80-88, DOI:10.1016/j.isprsjprs.2014.11.008.[pdf]
  • Hu, C., and S. Yang*, 2015: An optimal index for measuring the effect of East Asian winter monsoon on China winter temperature. Climate Dyn., 45, 2571-2589. DOI: 10.1007/s00382-015-2493-5.[pdf]
  • Jiang, X., Y. Li, S. Yang, and G. He, 2015: Interannual variation of mid-summer heavy rainfall in the eastern edge of the Tibetan Plateau. Climate Dyn., 45, 3091-3102.[pdf]
  • Liu, G., P. Zhao, J. Chen, and S. Yang, 2015: Preceding factors of summer Asian–Pacific Oscillation and the physical mechanism for their potential influences. J. Climate, 28, 2531-2543.[pdf]
  • Liu, X., T. Wu, S. Yang, W. Jie, Y. Cheng, Q. Li, and X. Liang, 2015: Performance of the seasonal forecasting of the Asian summer monsoon by BCC_CSM1.1(m). Adv. Atmos. Sci.,32, 1156-1172.[pdf]
  • Liu, X., S. Yang*, J. Li, W. Jie, L. Huang, and W. Gu, 2015: Subseasonal predictions of regional summer monsoon rainfalls over tropical Asian oceans and land. J. Climate, 28, 9583-9605.[pdf]
  • Xie, Z., Y. Du, and S. Yang*, 2015: Zonal extension and retraction of the subtropical westerly jet stream and evolution of precipitation over East Asia and the western Pacific.J. Climate, 28, 6783-6798.[pdf]
  • Zhao, S., S. Yang*, Y. Deng, and Q. Li, 2015: Skills of yearly prediction of the early-season rainfall over southern China by the NCEP Climate Forecast System. Theor. & Appl. Climatol., 122, 743-754, DOI 10.1007/ s00704-014-1333-6.[pdf]
  • Zuo, Z., S. Yang*, R. Zhang, D. Xiao, D. Guo, and L. Ma, 2015: Response of summer rainfall over China to spring snow anomalies over Siberia in the NCEP CFSv2 reforecast. Quart. J. Roy. Meteor. Soc., 141, 939-944.[pdf]
  • Peng, S.*, Y. Li, X. Gu, S. Chen, D. Wang, H. Wang, S. Zhang, W. Lv, C. Wang, B. Liu, D. Liu, Z. Lai, W. Lai, S. Wang, Y. Feng, and J. Zhang, 2015: A Real-Time Regional Forecasting System Established for the South China Sea and Its Performance in the Track Forecasts of Tropical Cyclones during 2011–13. Weather and Forecasting.30:471–485.[pdf]
  • Chen, S., Y.-K. Qian, and S. Peng*, 2015: Effects of various combinations of boundary layer schemes and microphysics schemes on the track forecasts of tropical cyclones over the South China Sea. Natural Hazards.78: 61-74.[pdf]
  • Wang X., S. Peng*, Z. Liu, R. X. Huang, Y. K. Qian and Y. Li: 2016: Tidal Mixing in the South China Sea: An Internal-Tide-Energetics-Based Estimate. Journal of Physical Oceanography. 46: 107-124.[pdf]
  • Huang, P., and J. Ying, 2015: A multimodel ensemble pattern regression method to correct the tropical Pacific SST change patterns under global warming. J. Climate, 28(12), 4706-4823.[pdf]
  • Huang, P.*and Shang-Ping Xie, 2015: Mechanisms of change in ENSO-induced tropical Pacific rainfall variability in a warming climate. Nature Geoscience, 8, 522–526, doi: 10.1038/ngeo2571.[pdf]
  • Huang, P.*, 2015: Seasonal changes in tropical SST and the surface energy budget under global warming projected by CMIP5 models. Journal of Climate, 28, 6503–6515, doi: 10.1175/ JCLI-D-15-0055.1.[pdf]
  • Shao, X., P. Huang*, and R.-H. Huang, 2015:Role of the phase transition of intraseasonal oscillation on the South China Sea summermonsoon onset. Climate Dynamics, 45, 125–137, doi: 10.1007/s00382-014-2264-8.[pdf]
  • He, B., and W. T. Hu, 2015: Assessment of the summer South Asian High in eighteen CMIP5 models. Atmos. Oceanic Sci. Lett., 8(1): 33-38.[pdf]
  • 伍红雨、杨崧、蒋兴文,2015:华南前汛期开始日期异常与大气环流和海温变化的关系. 气象学报, 73, 319-330.[pdf]
  • 张兰, 张宇飞, 林文实, 谢文锋, 张小玲, 樊琦, 2015. 空气污染对珠江三角洲一次大暴雨影响的数值模拟. 热带气象学报, 31(2), 264-272.[pdf]
  • Peng, S.*, and Y. Li*, 2015: A parabolic model of drag coefficient for storm surge simulation in the South China Sea. Scientific Reports.5:15496. DOi: 10.1038/srep15496.[pdf]
  • Yang, S., K. Deng, M. Ting, and C. Hu, 2015:  Advances in the Study of Energy Propagation in the Atmosphere and Interactions between Different Latitudes. J. Meteor. Res., in press.[pdf]
  • He, B., S. Yang*, and Z. Li, 2015: Role of atmospheric heating over the South China Sea and western Pacific regions in modulating Asian summer climate under the global warming background. Climate Dyn., DOI: 10.1007/ s00382-015-2739-2.[pdf]
  • Wu, G., He, B., Liu, Y., Bao, Q., 2015. Location and variation of the summertime upper-troposphere temperature maximum over South Asia. Climate Dynamics, DOI 10.1007/s00382-015-2506-4.[pdf]
  • 杨崧, 邓开强, Mingfang TING, 胡春迪, 2015. 大气能量传播及不同纬度间大气相互作用的研究进展. 气象学报. 在印.[pdf]

2015:

学术论文发表

    • 学术论文:58
    • SCI/SCIE论文:46
    • 国内核心刊物论文:12
  • Jiepeng Chen, Zhiping Wen, Renguang Wu and Zesheng Chen. 2015. Influences of northward propagating 25-90-day and quasi-biweekly oscillations on Eastern China summer rainfall. Climate Dynamics, 45:105-124.[pdf]
  • Yuanyuan Guo , Zhiping Wen , Renguang Wu , Riyu Lu , Zesheng Chen. 2015. Impact of tropical Pacific precipitation on the East Asian upper-tropospheric westerly jet during the boreal winter. Journal of Climate. 28(16): 6457-6474.[pdf]
  • He C, Wu B, Li C, Lin A, Gu D, Zheng B, Zhou T. 2015. How much of the interannual variability of East Asian summer rainfall is forced by SST? Clim Dynam:1-11. doi:10.1007/s00382-015-2855-z.[pdf]
  • He C, Zhou T. 2015. Decadal change of the connection between summer western North Pacific Subtropical High and tropical SST in the early 1990s. Atmos Sci Lett 16 (3):253-259. doi:10.1002/asl2.550.[pdf]
  • He C, Zhou T, Lin A, Wu B, Gu D, Li C, Zheng B. 2015. Enhanced or Weakened Western North Pacific Subtropical High under Global Warming? Scientific Reports. doi:10.1038/srep16771.[pdf]
  • He C, Zhou T, Wu B. 2015. The Key Oceanic Regions Responsible for the Interannual Variability of the Western North Pacific Subtropical High and Associated Mechanisms. J. Meteor. Res. 29 (4): 562-575. doi: 10.1007/ s13351-015-5037-3.[pdf]
  • LIN Ai-lan*, LI Chun-hui, GU De-jun, Zheng Bin. 2015. Impact of tropical intraseasonal oscillations on the precipitation of Guangdong in Junes. Journal of Tropical Meteorology, 21(4): 326-336.[pdf]
  • Chen, Z., Wen, Z., Wu, R., Lin, X., Wang, J., 2015. Relative Importance of Tropical SST Anomalies in Maintaining the Western North Pacific Anomalous Anticycloneduring El Niño to La Niña transition years. Climate Dynamics, DOI 10.1007/s00382-015-2630-1.[pdf]
  • 林爱兰,谷德军,李春晖,郑彬,何超.2015. 广东6 月持续性暴雨期间的大气环流异常. 气象学报, 73(5): 289-299.[pdf]
  • 贾丹,简茂球.2015. 中国冬季月地面气温的年际变化. 气候与环境研究, 20(4): 454-464.[pdf]
  • Chen, S.-F., R. Wu, and W. Chen, 2015. the Changing relationship between interannual variations of the North Atlantic Oscillation and northern Tropical Atlantic SST. Journal of Climate, 28(2), 485-504.[pdf]
  • Ye, K., R. Wu, and Y. Liu, 2015. Interdecadal change of Eurasian snow, surface temperature and atmospheric circulation in late 1980s. J. Geophys. Res., 120(7), doi:10.1002/2015JD023148.[pdf]
  • Hu, W.-T., and R. Wu, 2015: Relationship between South China Sea precipitation variability and Tropical Indo-Pacific SST anomalies in the IPCC CMIP5 models during spring-to-summer transition. Adv. Atmos. Sci., 32(9), 1308-1318, doi:10.1007/s00376-015-4250-4.[pdf]
  • Wu, R., and Z. Chen, 2015: Intraseasonal SST variations in the South China Sea during boreal winter and impacts of the East Asian winter monsoon. J. Geophys. Res., 120(12), 5863-5878, doi:10.1002/2015JD023368.[pdf]
  • Chen, Z., R. Wu, and W. Chen, 2015: Effects of northern and southern components of the East Asian winter monsoon on SST changes in the western North Pacific. J. Geophys. Res., 120(9), 3888-3905, doi:10.1002/ 2015JD023149.[pdf]
  • Wu, L., Z.-P. Wen, and R. Wu, 2015: Influence of the monsoon trough on westward-propagating synoptic-scale disturbances over the western North Pacific. Part I: Observations. J. Climate, 28(18), 7108-7127, doi:10.1175/ JCLI-D-14-00806.1.[pdf]
  • Wu, R., and W.-T. Hu, 2015: Air-sea relationship associated with precipitation anomaly change and mean precipitation anomaly over the South China Sea and the Arabian Sea during the spring-to-summer transition. J. Climate, 28(18), 7161-7181, doi:10.1175/JCLI-D-15-0136.1.[pdf]
  • Ye, K.-H, and R. Wu, 2015: Contrast of local air-sea relationship between 10-20-day and 30-60-day intraseasonal oscillations during May-September over the South China Sea and the western North Pacific. Climate Dynamics, 45(11-12), 3441-3459, doi:10.1007/s00382-015-2549-6.[pdf]
  • Wu, L., Z.-P. Wen, and R. Wu, 2015: Influence of the monsoon trough on westward-propagating synoptic-scale disturbances over the western North Pacific. Part II: Energetics and numerical experiments. J. Climate, 28(23), 9332-9349, doi:10.1175/JCLI-D-14-00807.1.[pdf]
  • Chen, G. H. 2015: Comments on “Interdecadal change of the South China Sea summer monsoon onset”. J. Climate. 28, 9029-9035.[pdf]
  • Wang.X., G. H. Chen, R. H. Huang. 2015: Different characteristics of the quasi-biweekly oscillation over the South China Sea in two boreal summer stages. Theor. Appl. Climatol., doi: 10.1007/s00704-015-1550-7.[pdf]
  • Li, J.-Y., J.-Y.Mao, and G.-X. Wu, 2015: A case study of the impact of boreal summer intraseasonal oscillations on Yangtze River. Climate Dynamics, 44, 2683-2702, doi:10.1007/s00382-014-2425-9.[pdf]
  • Yong, Y.-Y., and J.-Y. Mao, 2015: Mechanistic analysis of the suppressed convective anomaly precursor associated with the initiation of primary MJO events over the tropical Indian Ocean. Climate Dynamics, doi:10.1007/ s00382-015-2612-3.[pdf]
  • Li, J.-Y., B.-Q. Liu, J.-D. Li, and J.-Y. Mao, 2015: A comparative study on the dominant factors responsible for the weaker-than-expected El Nino event in 2014. Advances in Atmospheric Sciences, 32, 1381-1390.[pdf]
  • Xie, F.-H., Z.-T.Fu, P. Liu, and J.-Y. Mao, 2015: Time irreversibility of mean temperature anomaly variations over China. Theoretical and Applied Climatology, doi:10.1007/s00704-014-1347-0.[pdf]
  • 郝赛, 毛江玉, 2015: 西北太平洋与南海热带气旋活动季节变化的差异及可能原因. 气候与环境研究, 20 (4): 380−392.[pdf]
  • Li Yaokun, Chao Jiping, 2015. The dynamical evolution theory of the isolated oasis system. Science China:Earth Sciences, 58(3), 436-447.[pdf]
  • Jiangnan Li,Kailu Wu ,Fangzhou Li ,Youlong Chen,Yanbin Huang, 2015, Cloud-scale simulation study on the evolution of latent heat processes of mesoscale convective system accompanying heavy rainfall: The Hainan case. Atmospheric Research., 169,331-339.[pdf]
  • Zhigang Wei, Wenjie Dong, 2015, Assessment of Simulations of Snow Depth in the Tibetan Plateau Using CMIP5 Multi-Models. Arctic, Antarctic, and Alpine Research, 47(4) ,611-625.[pdf]
  • 李玉梅, 彭玉麟, 简茂球, 曾沁, 2014. 中国南方地表感热通量的时空变化. 热带气象学报, 30(6), 1027-1036.[pdf]
  • 陈思, 简茂球, 2015. 影响华南前汛期降水异常的准双周振荡传播特征. 中山大学学报(自然科学版), 54(3), 130-137.[pdf]
  • 李耀锟, 巢纪平, 匡贡献, 2015. 城市热岛效应和气溶胶浓度的动力、热力学分析. 地球物理学报, 58(3), 729-740.[pdf]
  • 李倩, 孙菽芬, 2015. 陆面过程模型中垂直非均匀土壤的水分传输及相变的模拟. 大气科学, 39 (4), 827-838.[pdf]
  • 赵威, 赵海坤, 韦志刚等, 2015. MJO-西北太平洋热带气旋活动关系及其年代际变化. 热带气象学报, 31(2), 237-246.[pdf]
  • Chen, F., S. Yang, Z. Su, and B. He, 2015: A new single-channel method for estimating land surface temperature based on the image inherent information: the HJ-1B case. ISPRS J. Photogrammetry and Remote Sensing, 101, 80-88, DOI:10.1016/j.isprsjprs.2014.11.008.[pdf]
  • Hu, C., and S. Yang*, 2015: An optimal index for measuring the effect of East Asian winter monsoon on China winter temperature. Climate Dyn., 45, 2571-2589. DOI: 10.1007/s00382-015-2493-5.[pdf]
  • Jiang, X., Y. Li, S. Yang, and G. He, 2015: Interannual variation of mid-summer heavy rainfall in the eastern edge of the Tibetan Plateau. Climate Dyn., 45, 3091-3102.[pdf]
  • Liu, G., P. Zhao, J. Chen, and S. Yang, 2015: Preceding factors of summer Asian–Pacific Oscillation and the physical mechanism for their potential influences. J. Climate, 28, 2531-2543.[pdf]
  • Liu, X., T. Wu, S. Yang, W. Jie, Y. Cheng, Q. Li, and X. Liang, 2015: Performance of the seasonal forecasting of the Asian summer monsoon by BCC_CSM1.1(m). Adv. Atmos. Sci., 32, 1156-1172.[pdf]
  • Liu, X., S. Yang*, J. Li, W. Jie, L. Huang, and W. Gu, 2015: Subseasonal predictions of regional summer monsoon rainfalls over tropical Asian oceans and land. J. Climate, 28, 9583-9605.[pdf]
  • Xie, Z., Y. Du, and S. Yang*, 2015: Zonal extension and retraction of the subtropical westerly jet stream and evolution of precipitation over East Asia and the western Pacific. J. Climate, 28, 6783-6798.[pdf]
  • Zhao, S., S. Yang*, Y. Deng, and Q. Li, 2015: Skills of yearly prediction of the early-season rainfall over southern China by the NCEP Climate Forecast System. Theor. & Appl. Climatol., 122, 743-754, DOI 10.1007/ s00704-014-1333-6.[pdf]
  • Zuo, Z., S. Yang*, R. Zhang, D. Xiao, D. Guo, and L. Ma, 2015: Response of summer rainfall over China to spring snow anomalies over Siberia in the NCEP CFSv2 reforecast. Quart. J. Roy. Meteor. Soc., 141, 939-944.[pdf]
  • Peng, S.*, Y. Li, X. Gu, S. Chen, D. Wang, H. Wang, S. Zhang, W. Lv, C. Wang, B. Liu, D. Liu, Z. Lai, W. Lai, S. Wang, Y. Feng, and J. Zhang, 2015: A Real-Time Regional Forecasting System Established for the South China Sea and Its Performance in the Track Forecasts of Tropical Cyclones during 2011–13. Weather and Forecasting.30:471–485.[pdf]
  • Chen, S., Y.-K. Qian, and S. Peng*, 2015: Effects of various combinations of boundary layer schemes and microphysics schemes on the track forecasts of tropical cyclones over the South China Sea. Natural Hazards.78: 61-74.[pdf]
  • Wang X., S. Peng*, Z. Liu, R. X. Huang, Y. K. Qian and Y. Li: 2016: Tidal Mixing in the South China Sea: An Internal-Tide-Energetics-Based Estimate. Journal of Physical Oceanography. 46: 107-124.[pdf]
  • Huang, P., and J. Ying, 2015: A multimodel ensemble pattern regression method to correct the tropical Pacific SST change patterns under global warming. J. Climate, 28(12), 4706-4823.[pdf]
  • Huang, P.*and Shang-Ping Xie, 2015: Mechanisms of change in ENSO-induced tropical Pacific rainfall variability in a warming climate. Nature Geoscience, 8, 522–526, doi: 10.1038/ngeo2571.[pdf]
  • Huang, P.*, 2015: Seasonal changes in tropical SST and the surface energy budget under global warming projected by CMIP5 models. Journal of Climate, 28, 6503–6515, doi: 10.1175/ JCLI-D-15-0055.1.[pdf]
  • Shao, X., P. Huang*, and R.-H. Huang, 2015:Role of the phase transition of intraseasonal oscillation on the South China Sea summermonsoon onset. Climate Dynamics, 45, 125–137, doi: 10.1007/s00382-014-2264-8.[pdf]
  • He, B., and W. T. Hu, 2015: Assessment of the summer South Asian High in eighteen CMIP5 models. Atmos. Oceanic Sci. Lett., 8(1): 33-38.[pdf]
  • 伍红雨、杨崧、蒋兴文,2015:华南前汛期开始日期异常与大气环流和海温变化的关系. 气象学报, 73, 319-330.[pdf]
  • 张兰, 张宇飞, 林文实, 谢文锋, 张小玲, 樊琦, 2015. 空气污染对珠江三角洲一次大暴雨影响的数值模拟. 热带气象学报, 31(2), 264-272.[pdf]
  • Peng, S.*, and Y. Li*, 2015: A parabolic model of drag coefficient for storm surge simulation in the South China Sea. Scientific Reports.5:15496. DOi: 10.1038/srep15496.[pdf]
  • Yang, S., K. Deng, M. Ting, and C. Hu, 2015:  Advances in the Study of Energy Propagation in the Atmosphere and Interactions between Different Latitudes. J. Meteor. Res., in press.[pdf]
  • He, B., S. Yang*, and Z. Li, 2015: Role of atmospheric heating over the South China Sea and western Pacific regions in modulating Asian summer climate under the global warming background. Climate Dyn., DOI: 10.1007/ s00382-015-2739-2.[pdf]
  • Wu, G., He, B., Liu, Y., Bao, Q., 2015. Location and variation of the summertime upper-troposphere temperature maximum over South Asia. Climate Dynamics, DOI 10.1007/s00382-015-2506-4.[pdf]
  • 杨崧, 邓开强, Mingfang TING, 胡春迪, 2015. 大气能量传播及不同纬度间大气相互作用的研究进展. 气象学报. 在印.[pdf]

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]