赵海坤教授主页
赵海坤

个人信息Personal Information

教授 博士生导师 硕士生导师

教师英文名称:Zhao Haikun

教师拼音名称:Zhao Haikun

所在单位:大气科学学院

职务:副院长

办公地点:气象楼708

性别:男

职称:教授

博士生导师

硕士生导师

学科:大气科学

  • 基本信息
  • 个人简介
  • 近期主要论著
  • 近期科研项目
  • 姓       名:  赵海坤

    出生年月:  1983年8月16日

    国       籍:  中国

    性       别:  男

    导       师:  周伟灿教授、吴立广教授

    职       称:  教授

    最高学历:  博士

    所属专业:  气象学

    所属系部:  动力气象系

    毕业院校:  南京信息工程大学

    研究方向:  台风气候动力学、台风预测预报技术

    办公地点:  气象楼708室

    邮       箱:  haikunzhao@nuist.edu.cn;zhk2004y@gmail.com

    主讲课程:  热带天气动力学、台风分析与诊断、气象统计方法

    主要研究领域:  台风气候学;台风预测技术研制;热带波动

  • 教育背景:  

    2007.09-2012.07气象学,博士,南京信息工程大学 (导师:周伟灿教授、吴立广教授)

    2004.09-2007.07应用数学,硕士,南京信息工程大学(导师:周伟灿教授)

    2000.09-2004.07应用数学,学士,上饶师范学院


    工作经历:  

    2019.07-至今,   南京信息工程大学,大气科学学院,教授

    2015.07-2019.06,南京信息工程大学,大气科学学院,副教授

    2017.10-2017.12,意大利理论国际理论物理中心,访问学者

    2010.06-2015.07,南京信息工程大学,大气科学学院,讲师

    2014.06-2015.06,Visiting Assistant Researcher,Joint Institute for Regional Earth System Science and Engineering(JIFRESSE),UCLA,USA


    学术服务:  

    受邀担任中国气象学会第29届理事会台风专业委员会委员(2024-2029年)

    受邀担任美国气象学会 36th Conference on Hurricanes and Tropical Meteorology  Session Co-Chair (Session Title: Effects of the Tibetan Plateau on Climate and Weather )(2024年)

    受邀担任美国气象学会 36th Conference on Hurricanes and Tropical Meteorology 专题会议召集人(2024年)

    受邀担任波兰国家自然科学基金评审海外评审专家(2024年)

    受邀担任首届海南气象科创平台统筹建设指导委员会委员(2024年-2027年)

    受邀担任美国气象学会期刊 Journal of Climate Associate Editor (2023年-2025)

    受邀担任第20届AOGS AS18-The Science and Prediction of Tropical Cyclones  Session Chair(2023年)

    受邀担任江苏省工程师学会风工程专委会委员(2022-2024年)

    担任第十届世界气象组织WMO国际台风研讨会工作组专家成员 (2022年度)

    担任气象灾害预报预警与评估协同创新中心首席科学家(2022年-2024年)

    担任SCI期刊Frontiers in Environmental Science (2022年-)和PeerJ 期刊(2022年-)编委

    担任印度科学教育与研究学院职称晋升海外评审专家(2021年-)

    担任国家自然科学基金和香港资助局基金评审专家(2016年-)

    担任中国青年地学论坛专题召集人(2019年)

    担任美国地球物理学会会员、美国气象学会会员、中国气象学会会员

    担任多种气象类期刊《Nature》、《Science Advances》、《Nature Communications》、《Nature Climate Change》、《PNAS》、《Scientific Report》、《Journal of Climate》、《Climate Dynamics》、《Journal of Geophysical Research》、《Month Weather Review》、《Atmospheric Research》、《Journal of Applied Meteorology and Climatology》、《Advances in Atmospheric Sciences》、《Science China:Earth Sciences》、《Meteorology and Atmospheric Physics》、《Acta Meteorologica Sinica》、《Advances in Meteorology》、《Journal of Meteorological Research》、《Frontiers of Earth Science》、《Journal of Oceanology and Limnology》、《气象学报》、《海洋学报》、《热带气象学报》、《气象科学》、《热带海洋学报》、《大气科学学报》、《南京信息工程大学学报》、《气象科技》等期刊审稿人

    荣誉:  

    2024年  湖南省科学技术奖自然科学二等奖(排名2)

    2024年  江苏省第七期“333高层次人才培养工程”培养对象(第二层次)

    2022年  校优秀研究生指导导师

    2021年  校优秀共产党员

    2020年  校青年五四奖章获得者

    2020年 JMR Reviwer Award

    2020年  教育部霍英东基金青年教师奖

    2019年  清华大学-浪潮集团计算地球科学青年人才奖

    2019年  国家优青基金获得者

    2019年  江苏省六大人才高峰高层次人才

    2018年  谢义炳青年气象科技奖

    2017年  江苏省青蓝工程骨干教师

    2016年 《 Advances in Atmospheric Sciences》优秀论文奖

    2014年  江苏省政府留学基金获得者

    2013年  江苏省优秀博士学位论文获得者

    2013年  校青年教师教学竞赛三等奖

    2012年  南京信息工程大学优秀博士学位论文获得者

    2012年  校优秀班主任

    2011年  校优秀班主任

    2010年  南京市自然科学优秀学术论文三等奖





  • 发表论文: (* 通讯作者)

    2025

    101. Xiang, Q., Zhao, H.*, Klotzbach, P. J., Su, T., Wang, C. & Wu, L. (2025): Amplified Bimodal Distribution of Western North Pacific Tropical Cyclone Lifetime Maximum Intensity, Geophysical Research Letters, 10.1029/2024GL111637 (Accepted)

    100. Tian, W., Song, P., Chen, Y. Zhang, Y., Wu, L., Zhao, H., Sian, K., Xiang, C., (2025). Short-Term Rolling Prediction of Tropical Cyclone Intensity Based on Multi-Task Learning with Fusion of Deviation-Angle Variance and Satellite Imagery. Adv. Atmos. Sci., 42, 111–128.

    99. Cao, J., Feng, J., Zhao, H. et al.(2025). Comparable impacts of IPO and AMO on the decadal change of northern hemisphere tropical cyclone frequency. Clim. Dyn., 63(1),1-18. 

    2024

    98. Xu, Z., Guo, J., Zhang, G., Ye, Y., Zhao, H., and Chen, H. (2024). Global tropical cyclone size and intensity reconstruction dataset for 19592022 based on IBTrACS and ERA5 data, Earth Syst. Sci. Data, 16, 5753-5766.

    97. Wang, Y., Wang, C., Wu, L. Zhao, R., Zhao, H., Cao, J. (2024). Synergic influence of lower and upper troposphere large-scale circulations on tropical cyclone genesis over the western North Pacific. Clim. Dyn., 62, 8403–8415.

    96. Si, S., Zhao, H.*, Chen, S. Klotzbach, P. J., GB Raga (2024). Evaluation of the boreal summer intraseasonal oscillation modulation on western North Pacific tropical cyclone genesis in CMIP6 HighResMIP models. Clim. Dyn., 62, 10091–10111.

    95. Yan, F., Shan, K., Zhao, H., & Yu, X.(2024). Growing threat of tropical cyclonedisasters in inland areas of East China.Geophysical Research Letters, 51,e2024GL111877.

    94. Jian, D., Zhao, H.*, Klotzbach, P. J., Raga,G. B., Gao, J., Cao, J., et al. (2024).Projected poleward migration of western North Pacific tropical cyclone genesis.Geophysical Research Letters, 51,e2024GL110031.

    93. Zhao,K., Zhao, H.*, Coupe, J., Klotzbach, P. J., & Wu, L. (2024). Simulating the response of tropical cyclones to potential nuclear war. Journal of Geophysical Research: Atmospheres, 129, e2024JD041658. 

    92Zhao, H.*, Zhao, K., Klotzbach, P. J., Chand, S.S., Camargo, S.J., Cao, J., Wu, L. (2024). Decreasing Global Tropical Cyclone Frequency in CMIP6 Historical Simulations, Sci. Adv., 10 (27), eadl2142.

    91. Sun, Q., Zhao, H.*, Klotzbach, P. J., Han, X., Gao, J., Wu, J. & Ma, Z. (2024). Strengthened Combined Impact of the Pacific and Atlantic Meridional Modes on Eastern North Pacific Tropical Cyclones since the 1990s. J. Climate, 37, 3345–3357.

    90. Tan, C., Zhao, H.*, Klotzbach, P. J., & Ma, Z. (2024). Interdecadal shifts in tropical sea surface temperature modulate autumn tropical cyclone genesis over the western North Pacific. Atmos. Res., 107473.

    89. Chen, S., Zhao, H.*, Klotzbach, P. J., Cao, J., Liang, J., Zhou, W., & Wu, L. (2024). Western North Pacific monsoon vorticity distribution as a potential driver of interannual meridional migration of the boreal summer synoptic scale wave train. J. Climate, 37(13), 3631-3648.

    88. Jian, D., Zhao, H., Liu, M., & Wang, R. (2024). El Niño–Southern Oscillation-Independent Regulation of Western North Pacific Tropical Cyclone Genesis. Atmosphere, 15(5), 537.

    87. Huang, J., Ma, Z., Zhao, H., Fei, J., & Chen, L. (2024). Increase in western North Pacific tropical cyclone intensification rates and their northwestward shifts. Atmos. Res, 301, 107292.

    2023

    86. Camargo, S. J., Murakami, H., Bloemendaal, N., Chand, S., Deshpande, M. S., Dominguez-Sarmiento, C., ... & Zhao, H. (2023). An Update on the Influence of Natural Climate Variability and Anthropogenic Climate Change on Tropical Cyclones. Tropical Cyclone Research and Review, 12 (3), 216-239. 

    85. Cao, J., Lian, X., Cao, M., Wang, B., Wang, H., Zhu, X., & Zhao, H. (2023). Wettening of Southern Hemisphere land monsoon during 1901-2014. J. Climate, 36 (24), 8497-8512.

    84. Wang, C., Wang, Y., Wang, B., Wu, L., Zhao, H., & Cao, J. (2023). Opposite skills of ENGPI and DGPI in depicting decadal variability of tropical cyclone genesis over the western North Pacific. J. Climate, 36 (24), 8713-8721.

    83. Zhang, S., Zhao, H.*, Klotzbach, P. J., Jiang, X., Chen, G., & Chen, S. (2023). Interannual Variability in the Boreal Summer Intraseasonal Oscillation Modulates the Meridional Migration of Western North Pacific Tropical Cyclone Genesis. J. Climate, 36(13), 4543-4558.

    82. Cai, Y., Zhao, H.*, Klotzbach, P. J., Raga, G. B., Xu, J., Wu, L., Han, X., He, B., and Cao, J., 2022: Can Tibetan Plateau snow depth influence the interannual association between tropical Indian Ocean sea surface temperatures and rapidly intensifying typhoons? J. Climate, 36(11), 3781-3800.

    81. Lu, J., Wu, L., Zhou, S., and Zhao, H., 2022: Interannual Variations of the β-drift of Tropical Cyclones over the Western North Pacific. J. Climate, 36(3), 745-752. https://doi.org/10.1175/JCLI-D-22-0327.1

    80. Fu, M., Wang, C., Wu, L., and Zhao, H., 2023: Season‐Dependent Modulation of Pacific Meridional Mode on Tropical Cyclone Genesis Over the Western North Pacific. J. Geophys. Res.: Atmos., 128(1), e2022JD037575. https://doi.org/10.1029/2022JD037575

    79. Zhao, H.*, Jiang, Y., Zhao, K., Cao, J., Klotzbach, P. J., Raga, G. B., and Wu, L., 2023: On the relationship between eastern China aerosols and western North Pacific tropical cyclone activity. Atmos. Res., 106604. https://doi.org/10.1016/j.atmosres.2023.106604

    78. Zang, Y., Zhao, H.*, Klotzbach, P. J., Wang, C., and Cao, J., 2022: Relationship between the South Asian High and Western North Pacific tropical cyclone genesis. Atmos. Res., 106491. https://doi.org/10.1016/j.atmosres.2022.106491

    77. Gao, J., Zhao, H.*, Klotzbach, P. J., Sun, F., Raga, G. B., Wang, C., and Ma, Z.2023: Environmental characteristics of western North Pacific tropical cyclone onset in neutral ENSO years. Clim. Dyn., 61(1), 413-429. 

    76. Zhu, Y., Zhao, H.*, Lu, J., Raga, G. B., Duan, J., & Wang, C., 2023: Factors Affecting Climate Variability of Basin‐wide Western North Pacific Tropical Cyclone Intensity. Int J Climatol., 43(3), 1448-1460. 

    75. 杨昕玮,邵宇行,赵海坤*,等, 2023: 环境引导气流两类典型年际模态与西北太平洋热带气旋活动的联系[J]. 海洋学报, 45(03):1-13..

    2022

    74. Gao, J., Zhao, H.*, Klotzbach, P. J., Shi, C., and Ma, Z., 2022: Recent weakening of the relationship between El Niño–Southern Oscillation and western North Pacific tropical cyclone season onset date. Int J Climatol., 42(6), 9462-9470. 

    73. Wu, K., Wang, C., Wu, L., Zhao, H., & Cao, J., 2022: Slowdown in landfalling tropical cyclone motion in south China. Geophys. Res. Lett., 49, e2022GL100428.

    72. Cao, J., Wang, H., Wang, B., Zhao, H., Wang, C., and Zhu, X., 2022: Higher Sensitivity of Northern Hemisphere Monsoon to Anthropogenic Aerosol than Greenhouse Gases. Geophys. Res. Lett., e2022GL100270.

    71. Cao, J.*, Wang, H., Zhao, H.*, Wang, B., Wu, L., & Wang, C., 2022: Reversed and comparable climate impacts from historical anthropogenic aerosol and GHG on global-scale tropical cyclone genesis potential. Environ. Res. Lett., 17(9), 094027.

    70. Zhao, H.*, Zhao, K., Klotzbach, P. J., Wu, L., & Wang, C., 2022: Interannual and interdecadal drivers of meridional migration of Western North Pacific tropical cyclone lifetime maximum intensity location. J. Climate, 35(9), 2709-2722.

    69. Zhao H.*, Lu, Y., Jiang, X., Klotzbach, P. J., Wu, L., & Cao, J. 2022: A Statistical Intra-Seasonal Prediction Model of Extended Boreal Summer Western North Pacific Tropical Cyclone Genesis. J. Climate, 35 (8), 2459-2478.

    68. Cai, Y., Han, X., Zhao, H.*, Klotzbach, P. J., Wu, L., Raga, G. B., & Wang, C., 2022: Enhanced predictability of rapidly intensifying tropical cyclones over the western North Pacific associated with snow depth changes over the Tibetan Plateau. J. Climate, 35 (7), 2093-2110.

    67. Wu, L., Zhao, H., Wang, C., Cao, J., and Liang, J, 2022: Understanding of the Effect of Climate Change on Tropical Cyclone Intensity: A Review. Adv. Atmos. Sci., 39(2), 205-221.

    66. Ha, Y., Zhong, Z., Zhao, H., Zhu, Y., Yao, Y., & Hu, Y. 2022: A Climatological Perspective on Extratropical Synoptic-Scale Transient Eddy Activity Response to Western Pacific Tropical Cyclones. Adv. Atmos. Sci., 39(2), 333-343.

    65. Lu Z, Zhao T, Zhou W, Zhao, H., 2022: Interdecadal Variation of the Antarctic Circumpolar Wave Based on the 20CRV3 Dataset, Atmosphere, 13 (5), 736.

    64. 李倩倩, 曹剑, 赵海坤,2022过去两万年南北半球季风降水反位相变化特征研究[J]. 第四纪研究,  (2), 325-337.

    63. 周伟灿, 张小雨, 赵海坤, 等,2022西北太平洋热带气旋频数异常与五类主要大尺度环流型的关系[J]. 大气科学学报, 45(1): 30-39.

     

    2021

    62. Cao, J., Zhao H.*, Wang, B.*, & Wu, L. 2021: Hemisphere-asymmetric tropical cyclones response to anthropogenic aerosol forcing. Nat. Commun., 12(1), 1-8.

    61. Song J., Klotzbach PJ., Zhao H., Duan Y., 2021: Slowdown in the decay of western North Pacific tropical cyclones making landfall on the Asian continent. Front. Earth Sci., 9:749287.

    60. Chen S, Zhao H.*, Klotzbach P J, et al., 2021: Decadal Modulation of Transbasin Variability on Extended Boreal Summer Tropical Cyclone Activity in the Tropical North Pacific and Atlantic Basins. J. Climate, 34(17), 7149-7166.

    59. 卢莹,赵海坤*,赵丹,李青青,20211984−2017年影响中国热带气旋灾害的时空特征分析. 海洋学报43(6), 45–61.

    58. Zhao H.*, Zhao, K., Cao, J., et al., 2021: Meridional Migration of Eastern North Pacific Tropical Cyclogenesis: Joint Contribution of Interhemispheric Temperature Differential and ENSO. J. Geophys. Res.: Atmos., 126(10): e2020JD034504.

    57. C Wang, K Wu, L Wu, Zhao H., J Cao, 2021: What Caused the Unprecedented Absence of Western North Pacific Tropical Cyclones in July 2020? Geophys. Res. Lett., 48(9), e2020GL092282.

    56. Han, X., Zhao, H.*, Klotzbach, P.J. Wu L., Raga G.B., 2021: Impact of Tibetan Plateau snow cover on tropical cyclogenesis via the Madden–Julian oscillation during the following boreal summer. Clim Dyn., 56, 3025–3043.

    55. Shi, M., S. Wang, X. Qi, Zhao, H.*, Y. Shu*, 2021: The influence of large-scale environment on the extremely active tropical cyclone activity in November 2019 over the western North Pacific. Atmosphere, 12(4), 501-508.

    54. Chen S, Zhao H.*, GB Raga, et al., 2021: Modulation of North Pacific and North Atlantic Tropical Cyclones by Tropical Tranbasin Variability and ENSO during May-October. J. Climate, 34(6), 2127-2144.

    53. Wang C., L. Wu, Zhao, H. et al., 2021: An abrupt slowdown of Late season tropical cyclone over the western North Pacific in the early 1980s, Journal of the meteorological Society of Japan. Ser. II., 99(6), 1413-1422

    52. Zhao K, Zhao H.*, Raga G B, et al., 2021: Changes in extended boreal summer tropical cyclogenesis associated with large-scale flow patterns over the western North Pacific in response to the global warming hiatus. Clim Dyn, 56(1), 515-535.

    51. Cao J., L. Ma, F. Liu, Jing Chai, Zhao H., et al. 2021: NUIST ESM v3 data submissions to CMIP6. Adv. Atmos. Sci., 38(2), 268-284.

     

    2020

    50. Zhao, H.*, Phil. J. Klotzbach, S. Chen, 2020: Dominant Influence of ENSO-Like and Global Sea Surface Temperature Patterns on Changes in Prevailing Boreal Summer Tropical Cyclone Tracks over the Western North Pacific, J. Climate, 33(22),9551-9565.

    49. Y. Jiang, L. Wu, Zhao H., X. Zhou, Q. Liu, 2020: Azimuthal Variations of the Convective-scale Structure in a Simulated Tropical Cyclone Principal Rainband, Adv. Atmos. Sci., 37, 1239-1255.

    48. Gao J., Zhao H.*, Phil J. Klotzbach, C. Wang, Graciela B Raga, S. Chen, 2020: Possible Influence of Tropical Indian Ocean Sea Surface Temperature on the Proportion of Rapidly Intensifying Western North Pacific Tropical Cyclones during the Extended Boreal Summer, J. Climate, 33(21), 9129-9143.

    47. C Wang, L Wu, J Lu, Q Liu, Zhao H., W Tian, J Cao2020Interannual Variability of the Basinwide Translation Speed of Tropical Cyclones in the Western North Pacific, J. Climate, 33 (20), 8641-8650.

    46. Cao J., Bo Wang, Bin Wang, Zhao H., C. Wang, Y. Han, 2020: Sources of the Inter-model Spread in Projected Global Monsoon Hydrological Sensitivity, Geophys. Res. Lett., ,47(18), e2020GL089560.

    45. Cao J., Zhao H., 2020: Distinct response of Northern Hemisphere land monsoon precipitation to transient and stabilized warming scenarios, Advances in Climate Change Research, 11(3), 161-171.

    44. Zheng Y., L Wu, Zhao H., X. Zhou, Q. Liu, 2020: Simulation of Extreme Updrafts in the Tropical Cyclone Eyewall, Adv. Atmos. Sci., 37, 781-792.

    43. Han X., Zhao H.*, Li X., Raga GB, Wang C., Li Q., 2020Modulation of Boreal Extended Summer Tropical Cyclogenesis over the Northwest Pacific by the Quasi‐Biweekly Oscillation under different El Niño‐Southern Oscillation PhasesInt J Climatol, 40(2), 858-873.

    42. 向纯怡,赵海坤,刘青元,董林,2020:1909号台风利奇马登陆后强降水分布特征.气象科学, 40(3),294-302.

     

    2019

    41. Zhao H.*, J. Zhang, Phil. Klotzbach, and S. Chen, 2019: Recent increased co-variability of tropical cyclogenesis latitude-longitude over the western North Pacific during the extended boreal summer. J. Climate, 32(23), 8167-8179.

    40. Zhao H.*, S. Chen, and Phil. Klotzbach, 2019: Recent Strengthening of the Relationship between the Western North Pacific Monsoon and Western North Pacific Tropical Cyclone Activity during the Boreal Summer. J. Climate, 32(23), 8283-8299.

    39. 陶局, 易笑园, 赵海坤, 张文龙,2019:一次飑线过程及其受下垫面影响的数值模拟,高原气象38(4)756-772.

    38. Zhao H.*, S. Chen, GB Raga, Phil. J. Klotzbach, and L. Wu, 2019: Recent decrease in genesis productivity of tropical cloud cluster over the western North pacific, Clim. Dyn., 1-13.

    37. 陶局,赵海坤*,易笑园,刘一玮,贾慧珍,2019: 基于RMAPs的一次局地强降水过程的成因分析,气象科技47(2), 300-311.

    36. Zhao H.*, X. Jiang, L. Wu and Phil. Klotzbach, 2019: Multi-scale interactions of equatorial waves associated with tropical cyclogenesis over the western North Pacific, Clim. Dyn, 52(5), 3023-3038.

    35. 黄灏,赵海坤*,杨琳,20191981-2017年山东汛期降水时空分布特征,水土保持研究203-208.

    34. Zhao H.*, L. Wu, C. Wang and Phil. Klotzbach, 2019: Consistent Late Onset of the Western North Pacific Tropical Cyclone Season Following Major El Niño Events, J. Meteor. Soc. Japan, 97 (3), 673-688.

     

    33. C. Wang, L. Wu, Zhao H., J. Cao and W. Tian, 2019: Is there a quiescent typhoon season over the western North Pacific following a strong El Nino event? Int J Climatol, 39(1), 61-73.

    32. Zhao H. and C. Wang*, 2019: On the relationship between ENSO and tropical cyclones in the western North Pacific during the boreal summer, Clim. Dyn., 52(1), 275-288.

     

    2018

    31. Zhao H.*, S.H. Chen, P. J. Klotzbach, and GB Raga, 2018: Impact of the Extended Boreal Summer Intra-seasonal Oscillation on Western North Pacific Tropical Cloud Cluster Genesis Productivity, J. Climate, 31(22), 9175-9191.

    30. Zhao H.*, X. Duan, Raga GB and Phil. Klotzbach, 2018: Changes in Characteristics of Rapidly Intensifying Western North Pacific Tropical Cyclones Related to Climate Regime Shifts, J. Climate, 31(19), 8163-8179.

    29. Zhao H.*, L Wu, Raga GB, 2018: Inter-decadal change of the lagged inter-annual relationship between local sea surface temperature and tropical cyclone activity over the western North Pacific. Theor Appl Climatol, 134(1), 707-720.

    28. Shen, H., Zhou, W., and Zhao, H., 2017: Simulation of tropical cyclone activity over the western North Pacific based on CMIP5 models, Theor Appl Climatol, 134(1), 37-50.

    27. 韩翔, 赵海坤*, 孙齐, 2018: 夏季热带大气准双周振荡对西北太平洋台风生成的影响[J]. 热带气象学报, 34(4): 524-534.

    26. Zhao, H*, and Wu, L., 2018: Modulation of convectively coupled equatorial Rossby wave on the western North Pacific tropical cyclones activity. Int J Climatol, 38(2), 932-948.

    25. Zhao H.*, Raga GB, Klotzbach PJ, 2018: Impact of the boreal summer quasi-biweekly oscillation on Eastern North Pacific tropical cyclone activity. Int J Climatol, 38(3), 1353-1365. https://doi.org/10.1002/joc.5250

    24. Zhao H.*, X. Duan, Raga GB, Fengpeng Sun, 2018: Potential large-scale forcing mechanisms driving enhanced North Atlantic tropical cyclone activity since the mid-1990s, J. Climate, 31(4), 1377-1397. https://doi.org/10.1175/JCLI-D-17-0016.1

     

    2016

    23. Zhao H.*, Yoshida, Y., and C. Wang, 2016: Modulation of Tropical Cyclogenesis in the Western North Pacific by the Quasi-Biweekly Oscillation. Adv. Atmos. Sci., 33(12), 1361-1375. https://doi.org/10.1007/s00376-016-5267-z

    22. Zhao H.*, X. Jiang, and L. Wu, 2016: Boreal Summer Synoptic-Scale Waves over the Western North Pacific in Multi-model Simulations, J. Climate, 29, 4487-4508. https://doi.org/10.1175/JCLI-D-15-0696.1

    21. Zhao W, Wei Z G, Zhao H.*, et al.,2016: Decadal changes in western North Pacific tropical cyclones associated with Madden-Julian Oscillation, J. Trop. Meteorol., 22(2), 109-118. https://doi.org/10.16555/j.1006-8775.2016.02.001

    20. Zhao, H.*, 2016: A downscaling technique to simulate changes in western North Pacific tropical cyclone activity between two types of El Niño events. Theor Appl Climatol, 123 (3), 487-501. https://doi.org/10.1007/s00704-015-1374-5

    19. Zhao H.*, and C. Wang, 2016: Interdecadal Modulation on the Relationship between ENSO and Typhoon Activity during the Late Season in the Western North Pacific, Clim. Dyn., 47(1), 315-328. https://doi.org/10.1007/s00382-015-2837-1

     

    2015

    18. Zhao H.*, R. G. B., 2015: On the distinct interannual variability of tropical cyclone activity over the eastern North Pacific, Atmósfera, 28(3), 161-178. https://doi.org/10.20937/ATM.2015.28.03.02

    17. Zhao, H.*, R. Yoshida, and R. G.B., 2015: Impact of the Madden-Julian Oscillation on Western North Pacific Tropical Cyclogenesis Associated with Large-scale Patterns. J. Appl. Meteor. Climatol., 54,.413-1429. https://doi.org/10.1175/JAMC-D-14-0254.1

    16. 赵威,赵海坤*,魏志刚,郑志远.2015:MJO与西北太平洋热带气旋活动的关系及其年代际变化,热带气象学报31(2),237-246.

    15. 周伟灿, 沈海波, 赵海坤, 2015: 热带季节内振荡对西北太平洋台风生成的大尺度环境的影响[J]. 大气科学学报, 38(6): 731-741.

    14. 赵海坤,吴立广*.2015:西北太平洋热带气旋变化的若干研究进展.气象科学35(1),108-118.

    13. Zhao H.*, X. Jiang, and L. Wu, 2015: Modulation of Northwest Pacific Tropical Cyclone Genesis by the Intraseasonal Variability, J. Meteor. Soc. Japan, 93(1), 81-97. https://doi.org/10.2151/jmsj.2015-006

     

    2014

    12. Zhao H.*, Chu, P. S., Hsu, P. C., and Murakami, H., 2014: Exploratory analysis of extremely low tropical cyclone activity during the late-season of 2010 and 1998 over the western North Pacific and the South China Sea. J. Adv. Model. Earth Syst., 06(04), 1141-1153. https://doi.org/10.1002/2014MS000381

    11. Zhao, H.*, and G. B. Raga, 2014: The influence of large-scale circulations on the extremely inactive tropical cyclone activity in 2010 over the western North Pacific. Atmósfera, 27(4), 353-365. https://doi.org/10.1016/S0187-6236(14)70034-7

    10. Zhi, X., and Zhao H., 2014: Travelling waves for competitive Lotka-Volterra systems with spatial diffusions and spatio-temporal delays, Appl. Math. Comput., 242, 669-678. https://doi.org/10.1016/j.amc.2014.06.058

    9. Zhao H.*, and L. Wu, 2014: Inter-decadal shift of the prevailing tropical cyclone tracks over the western North Pacific and its mechanism study. Meteor. Atmos. Phys., 125, 89-101. https://doi.org/10.1007/s00703-014-0322-8

    8. Zhao H., L. Wu*, and R. Wang, 2014: Decadal Variations of Intense Tropical Cyclones over the Western North Pacific during 1948–2010. Adv. Atmos. Sci., 31(1), 57-65. https://doi.org/10.1007/s00376-013-3011-5

     

    2013

    7. 赵海坤*,赵伟荣,赵军平.2013:西北太平洋热带气旋频数年际变化的统计预测,统计与决策(21),81-85.

     

    2012

    6. 赵军平,吴立广,赵海坤.2012:西北太平洋热带气旋潜在生成指数的改进.气象科学,32(6),591-599.

    5. Wu, L.* and Zhao H., 2012: Dynamically-Derived Tropical Cyclone Intensity Changes over the Western North Pacific., J. Climate, 25, 89-98. https://doi.org/10.1175/2011JCLI4139.1

     

    2011

    4. Zhao H., L. Wu*, and W. Zhou, 2011: Interannual changes of tropical cyclone intensity in the western North Pacific., J. Meteor. Soc. Japan, 89(3), 245-255. https://doi.org/10.2151/jmsj.2011-305

     

    2010

    3. 赵海坤, 吴华, 周伟灿,2010非线性 Schr dinger 方程差分格式的计算稳定性[J]. 南京信息工程大学学报: 自然科学版,  2(6), 553-556. https://doi.org/10.13878/j.cnki.jnuist.2010.06.014

    2.Zhao H., L. Wu *, and W. Zhou, 2010: Assessing the influence of the ENSO on tropical cyclone prevailing tracks in the western North Pacific., Adv. Atmos. Sci., 27(6), 1361-1371. https://doi.org/10.1007/s00376-010-9161-9

     

    2009

    1. Zhao H., L. Wu*, and W. Zhou, 2009: Observational Relationship of Climatologic Beta Drift with Large-Scale Environmental Flows. Geophys. Res. Lett., 36, L18809. https://doi.org/10.1029/2009GL040126

     

     

    *优秀学生论文:

    2023年: 指导的硕士论文获2022届南京信息工程大学优秀硕士论文(学生:蔡宇昊)。

    2023 年: 指导的本科毕业论文获2022届年江苏省优秀本科毕业论文三等奖 (学生:石梦莹)。

    2022年: 指导的本科毕业论文获2022届南京信息工程大学优秀本科毕业论文一等奖(学生:石梦莹)。

    2022年: 指导的硕士论文获2021届南京信息工程大学优秀硕士论文(学生:赵楷)。

    2021年: 指导的硕士论文获2020届南京信息工程大学优秀硕士论文(学生:陈少华)。

    2019 年: 指导的本科毕业论文获2018届年江苏省优秀本科毕业论文三等奖(学生:韩翔)。

    2018 年: 指导的本科毕业论文获2018届年南京信息工程大学优秀本科毕业论文二等奖(学生:韩翔)。


  • 近期科研项目:  

     国家自然科学基金重大项目课题,42193255021,台风生成多尺度协同作用机理和预报预测技术研究、2022/01-2026/12,¥1300,000、在研、合作单位负责人。

     国家自然科学基金优秀青年项目,41922033,台风气候动力学、2020/01-2022/12,¥1300,000、结题、主持。

    国家自然科学基金面上项目,41675072,低频夏季风环流背景下热带西北太平洋天气尺度波列发展的机理研究、2017/01-2020/12,¥680,000、在研、主持。

    国家自然科学基金国际交流合作项目,41791240590,季内时间尺度下热带-温带地区之间相互作用,2017/10-2017/12,¥15,000、在研、主持。

    江苏省自然科学基金面上项目,BK20181412,夏季风环境下西北太平洋天气尺度波动的季内变化及其对台风生成的调制,2018/07-2021/06,¥100,000、在研、主持。

    国家自然科学基金重点项目,41730961,青藏高原热力强迫影响西北太平洋热带气旋活动的机理研究,2018/01-2012/12,¥1050,000、在研、主要参与人员。

    国家自然科学基金青年项目,41305050、西北太平洋季内振荡的多尺度扰动及其对热带气旋生成的调制研究、2014/01-2016/12、¥250,000、结题、主持。

    江苏省高校自然科学基金项目,20110213、全球变暖背景下西北太平洋热带气旋活动的预估研究、2011/01-2013/12, ¥30,000、结题、主持。

    气象灾害省部共建重点实验室面上项目,KLME1204基于理论模式研究全球变暖背景下西北太平洋热带气旋活动的可能机理、2012/09-2013/12, ¥30,000、结题、主持。

    国家自然科学基金面上项目,41275093、全球变暖影响西北太平洋热带气旋生成研究、2013/01-2016/12、¥800,000、结题、参加。

    国家自然科学基金面上项目,41175061、台风的变形过程对中纬度急流的作用及其下有影响、2012/01-2015/12、¥730,000、结题、参加。

    国家自然科学基金面上项目,41375098、西北太平洋强TC频数与ENSO年际相关的年代际变化的机理研究、2014/01-2017/12、¥860,000、结题、参加。

    国家自然科学基金面上项目,41475091、基于CMIP5模式西北太平洋热带气旋活动的概率预估研究、2015/01-2018/12、¥800,000、结题、参加。

    国家自然科学基金青年项目,41305039、紫外线准11年变化对平流层臭氧三维变化的影响及化学与动力机制、2014/01-2016/12、¥250,000、结题、参加。

    国家自然科学基金青年面上项目,11301278、对称及偏斜对称分布下测量误差模型的文件估计与诊断研究、2014/01-2016/12、¥230,000、结题、参加。

    国家自然科学基金-青藏高原培育项目,91337102、基于FY-3位相多源遥感资料融合的青藏高原积雪分布研究、2014/01-2017/12、¥730,000、结题、参加。