张叶晖
近期热点
资料介绍
个人简历
工作经历2017/12 至今 ,南京信息工程大学,水文与水资源工程学院,教授2014/8 -2017/11 ,南京信息工程大学,水文气象学院,教授2011/9 - 2014/7,南京信息工程大学,水文气象学院,讲师2009/10 - 2011/8,美国国家海洋和大气管理局(NOAA),空气资源实验室(ARL),博士后教育经历2004/9 - 2009/6,武汉大学,空间物理专业,博士(硕博连读)2000/9 - 2004/6,武汉大学,电子信息工程专业,学士研究领域
主要从事大气重力波、大气逆温结构、大气边界层高度、大气可降水量等相关领域研究近期论文
Zhang, Y., Zhang, S., Huang, C., Huang, K., and Y. Gong, (2019). The tropopause inversion layer interaction with the inertial gravity wave activities and its latitudinal variability. J. Geophys. Res. Atmos., 124, 7512–7522.Zhang, Y., and S. Li (2019). Climatological characteristics of planetary boundary layer height over Japan. Int J Climatol., 39, 4015–4028.Zhang, Y., J. Xu, N. Yang, and P. Lan (2018), Variability and Trends in Global Precipitable Water Vapor Retrieved from COSMIC Radio Occultation and Radiosonde Observations, Atmosphere, 9 (5), 174.Zhang Y., N. Yang, J. Xu, and Y. Yin (2017), Long-Term Study of the Relationship between Precipitation and Aquatic Vegetation Succession in East Taihu Lake, China, Scientifica, 2017, Article ID 6345138, 8 pages. doi:10.1155/2017/6345138.Zhang, Y., S. Zhang, C. Huang, K. Huang, Y. Gong, and Q. Gan (2015), The interaction between the tropopause inversion layer and the inertial gravity wave activities revealed by radiosonde observations at a midlatitude station, J. Geophys. Res. Atmos., 120, 8099–8111, doi:10.1002/2015JD023115.Zhang Y H, Zhang S D, Huang C M, Huang K M, Gong Y, and Gan Q (2014), Diurnal variations of the planetary boundary layer height estimated from intensive radiosonde observations over Yichang, China. Sci China Tech Sci, 57: 2172–2176, doi: 10.1007/s11431-014-5639-5.Zhang, Y., D. J. Seidel and S. D. Zhang (2013), Trends in Planetary Boundary Layer Height over Europe, Journal of Climate, 26, 10071–10076.Zhang, Y.H., S.D. Zhang, F. Yi and Z.Y. Chen (2011), Statistics of lower tropospheric inversions over the Continental United States, Annales Geophysicae, 29, 401-410, doi:10.5194/angeo-29-401-2011..Zhang, Y., D. J. Seidel, J.-C. Golaz, C. Deser, and R. A. Tomas (2011), Climatological characteristics of Arctic and Antarctic surface-based inversions, Journal of Climate, 24, 5167–5186,doi: 10.1175/2011JCLI4004.1.Zhang, Y. and D. J. Seidel (2011), Challenges in estimating trends in Arctic surface-based inversions from radiosonde data, Geophysical Research Letters, 38, L17806, doi:10.1029/2011GL048728.Zhang, Y.H., S.D. Zhang, and F. Yi (2009), Intensive radiosonde observations of lower tropospheric inversion layers over Yichang, China, Journal of Atmospheric and Solar-Terrestrial Physics, 71, 180-190.N. Yang, Y, Zhang, and K. Duan (2017), Effect of Hydrologic Alteration on the Community Succession of Macrophytes at Xiangyang Site, Hanjiang River, China, Scientifica, 2017, Article ID 4083696, 10 pages, doi:10.1155/2017/4083696.Zhang, S. D., C. M. Huang, K. M. Huang, F. Yi, Y. H. Zhang, Y. Gong, and Q. Gan (2017), Vertical wavenumber spectra of three-dimensional winds revealed by radiosonde observations at midlatitude, Annales Geophysicae, 35, 107-116.Zhang, S. D., C. M. Huang, K. M. Huang, Y. Gong, G. Chen, Q. Gan, and Y. H. Zhang (2017), Latitudinal and Seasonal Variations of Vertical Wave Number Spectra of Three-Dimensional Winds Revealed by Radiosonde Observations, Journal of Geophysical Research: Atmospheres, 122, 3,174–13,190. https://doi.org/10.1002/2017JD027602P, Lan, B. Lin, Y. Zhang, and H. Chen (2017), Probable Maximum Precipitation Estimation Using the Revised Km-Value Method in Hong Kong, J. Hydrol. Eng., 22, 05017008,1-8.Wang, R., Y. Tomikawa, T. Nakamura, K.Huang, S. Zhang, Y. Zhang, H. Yang, and H. Hu (2016), A mechanism to explain the variations of tropopause and tropopause inversion layer in the Arctic region during a sudden stratospheric warming in 2009, J. Geophys. Res. Atmos., 121, 11,932–11,945, doi:10.1002/2016JD024958.Li, H. Y., C. M. Huang, S. D. Zhang, K. M. Huang, Y. Zhang, Y. Gong, Q. Gan, and Y. Jia (2016), Low-frequency oscillations of the gravity wave energy density in the lower atmosphere at low latitudes revealed by U.S. radiosonde data, J. Geophys. Res. Atmos., 121, 13,458–13,473, doi:10.1002/2016JD025435.Huang, C., S. Zhang, Q. Zhou, F. Yi, K. Huang, Y. Gong, Y. Zhang and Q. Gan (2015), WHU VHF radar observations of the diurnal tide and its variability in the lower atmosphere over Chongyang (114.14 E, 29.53 N), China, Annales Geophysicae, 33, 865-874.Huang K. M., A. Z. Liu, S. D. Zhang, F. Yi, C. M. Huang, Q. Gan, Y. Gong, Y. H. Zhang and R. Wang (2015), Observational evidence of quasi-27-day oscillation propagating from the lower atmosphere to the mesosphere over 20 N, Annales Geophysicae, 33, 1321-1330.Huang, K. M., S. D. Zhang, F. Yi, C. M. Huang, Q. Gan, Y. Gong, Y. H. Zhang (2014), Nonlinear interaction of gravity waves in a nonisothermal and dissipative atmosphere, Annales Geophysicae, 32, 263-275.Zhang, S. D., C. M. Huang, K. M. Huang, F. Yi, Y. H. Zhang, Y. Gong, and Q. Gan (2014), Spatial and seasonal variability of medium- and high-frequency gravity waves in the lower atmosphere revealed by US radiosonde data, Annales Geophysicae, 32, 1129-1143.Huang K. M., S. D. Zhang, F. Yi, C. M. Huang, Q. Gan, Y. Gong and Y. H. Zhang (2013), Third-order resonant interaction of atmospheric gravity waves, Journal of Geophysical Research, 118 (5), 2197-2206, doi:10.1029/2012JD018527.Huang, C. M., S. D. Zhang, F. Yi, K. M. Huang, Y. H. Zhang, Q. Gan and Y. Gong (2013), Frequency variations of gravity waves interacting with a time-varying tide, Annales Geophysicae, 31, 1731-1743.Zhang, S. D., F. Yi, C. M. Huang, K. M. Huang, Q. Gan, Y. H. Zhang, and Y. Gong (2013), Latitudinal and altitudinal variability of lower atmospheric inertial gravity waves revealed by U.S. radiosonde data, J. Geophys. Res. Atmos., 118, 7750–7764.Huang K. M., A. Z. Liu, S. D. Zhang, F. Yi, C. M. Huang, Q. Gan, Y. Gong, Y. H. Zhang (2013), nonlinear interaction event between a 16-day wave and a diurnal tide from meteor radar observations, Annales Geophysicae, 31, 2039-2048.Seidel, D. J., Y. Zhang, A. Beljaars, J.-C. Golaz, A. R. Jacobson, and B. Medeiros (2012), Climatology of the planetary boundary layer over the continental United States and Europe, J. Geophys. Res., 117, D17106, doi:10.1029/2012JD018143.标签: 南京信息工程大学 水文与水资源工程学院
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