宋翔洲,男,教授,博士生导师
学习经历:
2002/09-2006/06 中国海洋大学 海洋学 学士
2006/07-2012/06 中国海洋大学 物理海洋学 博士
2009/09-2011/09 美国麻省伍兹霍尔海洋研究所 物理海洋学 联合培养
工作经历:
2012/07-2014/07 中国海洋大学 物理海洋教育部重点实验室 讲师
2014/07-2017/12 国家海洋局 预报减灾司 环境保障处 主任科员
2016/01-2016/12 国家海洋环境预报中心 国家海洋局海洋灾害预报技术研究重点实验室 工作
2017/12-2018/09 国家海洋局 预报减灾司 海洋观测处 主任科员
2018/09-2019/01 自然资源部 国土空间规划局 专项规划处 主任科员
2019/01-至今 河海大学 海洋学院 教授
2021/06-2022/06 河海大学 海洋学院 副院长
2022/06-至今 河海大学 海洋学院 院长
2023/12-至今 自然资源部南京边缘海海气界面野外科学观测研究站站长
研究方向:
大洋环流与海气相互作用;海洋环境观(监)测;海洋与气候变化评估。
《海洋科学导论》(本科生);《海洋技术专业英语》(本科生);《海气相互作用》(研究生)
主持国家自然科学基金杰青项目、优青项目、面上项目和青年项目;
参与国家重点基础研究发展计划项目,国家高技术研究发展计划项目和国家自然科学基金重点项目等。
学术服务:
国家自然科学基金共享航次计划第五届指导专家组成员
National Science Review地球科学领域编辑工作组成员
国际热带太平洋观测计划科学工作组成员
中国海洋学会海气相互作用专委会副主任委员
中国海洋学会风暴潮与海啸分会副主任委员
江苏省理学2类教指委副主任委员
SCOR中国青年委员会委员
学术论文:
围绕海气热通量问题,以第一兼通讯作者身份在GRL, MWR, JGR:Oceans, DSR-I, JClim和JTECH等主流学术期刊发表SCI论文16篇,其中,独立作者论文4篇;与团队在Nature子刊, GRL和JPO等期刊发表论文30余篇。
近五年代表性论文(5篇):
Song, X., X. Xie, Y. Yan, and S.-P. Xie (2024). Observed sub-daily variations in air–sea turbulent heat fluxes under different marine atmospheric boundary layer stability conditions in the Gulf Stream. Mon. Weather Rev.
Song, X. (2023). Observed opposite fall-to-winter variations in the air-sea latent heat flux between the western boundary currents and coastal seas. Geophys. Res. Lett., 50, e2022GL100875.
Song, X., C. Ning, Y. Duan, H. Wang, C. Li, Y. Yang, J. Liu, R. Zhang, and W. Yu (2021). Observed extreme air-sea heat flux variations during three tropical cyclones in the tropical southeast Indian Ocean. J. Climate, 34, 3683–3705.
Song, X. (2021). The importance of including sea surface current when estimating air-sea turbulent heat fluxes and wind stress in the Gulf Stream region. J. Atmos. Oceanic Technol., 38, 119–138.
Song, X. (2020). Explaining the zonal asymmetry in the air-sea net heat flux climatology over the Antarctic Circumpolar Current. J. Geophys. Res.: Oceans., 125, e2020JC016215.
已发表其他论著(10篇):
Song, X., and L. Yu (2012). High-latitude contribution to global variability of air–sea sensible heat flux. J. Climate, 25, 3515-3531.
Song, X., and L. Yu (2013). How much net surface heat flux should go into the Western Pacific Warm Pool? J. Geophys. Res.: Oceans., 118, 3569–3585.
Song, X., and L. Yu (2017). Air-sea heat flux climatologies in the Mediterranean Sea: Surface energy balance and its consistency with ocean heat storage. J. Geophys. Res.: Oceans., 122, 4068–4087.
Song, X., Z. Chen, H. Wang, W. Yu, F. Yu, F. Qiao, F. Chai, X. Lin, F. Wang, D. Hu, L. Shi, B. Zou, M. Lin, X. Jiang, L. Cheng, G. Huang, J. Zhu, B. Wang, M. Jiang, W. Peng, J. Han, J. Yu, Y. Gu, P. Li, X. Guan, J. Huang, Y. Lin, Y. Luo, A. Tao, J. Zheng, Y. Du, and D. Wang (2018). China's Vision Towards the Tropical Pacific Observing System (TPOS) 2020. CLIVAR Exch., 75, 6–12.
Song, X., R. Huang, D. Wu, F. Qiao, and G. Wang (2019). Geostrophic spirals generated by the horizontal diffusion of vortex stretching in the Yellow Sea. Adv. Atmos. Sci., 36, 219–230.
Song, X., D. Wu, and X. Xie (2019). Tides and turbulent mixing in the north of Taiwan island. Adv. Atmos. Sci., 36, 313–325.
Song, X. (2020). The importance of relative wind speed in estimating air–sea turbulent heat fluxes in bulk formulas: examples in the Bohai Sea. J. Atmos. Oceanic Technol., 37, 589–603.
Song, X., X. Xie, B. Qiu, H. Cao, S.-P. Xie, Z. Chen, and W. Yu (2022). Air-sea latent heat flux anomalies induced by oceanic submesoscale processes: an observational case study. Front. Mar. Sci., 9.
Song, X., H. Cao, B. Qiu, W. Wang, and W. Yu (2023). Subsurface imbalance stimulated in a mesoscale eddy. Part I: Observations. Deep Sea Res. Part I, 196.
Song, X., X. Wang, W. Cai, and X. Xie (2023). Observed air–sea turbulent heat flux anomalies during the onset of the South China Sea summer monsoon in 2021. Mon. Weather Rev., 151, 2443–2464.
团队代表性工作:
Cao, H., X. Song, G. Liao, C. Ning, and W. Yu (2022). Microstructure observations of three-layered mixing on the shelf of the northwestern South China Sea. Deep Sea Res. Part II, 204, 105166.
Li, D., X. Song, H. Cao, Z. Chen, and B. Qiu (2024). Observations of tidal modulation on diurnal vertical displacements of the oceanic transition layer. Geophys. Res. Lett., 51, e2023GL107160.
Li, Y., Y. Tang, S. Wang, R. Toumi, X. Song, and Q. Wang (2023). Recent increases in tropical cyclone rapid intensification events in global offshore regions. Nat. Commun., 14, 5167.
Xie, X., Z. Wei, B. Wang, Z. Chen, M. Oltmanns, and X. Song (2022). Extreme air–sea turbulent fluxes during tropical cyclone Barijat observed by a newly designed drifting buoy. Fundam. Res.,https://doi.org/10.1016/j.fmre.2022.08.022.
Yan, Y., X. Song, G. Wang, and C. Chen (2022). Importance of high-frequency (≤30-day) wind variability to the annual climatology of the surface latent heat flux inferred from the global tropical moored buoy array. J. Geophys. Res.: Oceans, 127, e2021JC018094.
Yan, Y., X. Song, and M. Oltmanns (2023). Key role of subdaily wind variability for tropical surface wind stress. J. Phys. Oceanogr., 53, 863–873.
Yan, Y., X. Song, G. Wang, and X. Li (2024). Tropical cool-skin and warm-layer effects and their impact on surface heat fluxes. J. Phys. Oceanogr., 54, 45–62.