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杨龙
2023-05-11 15:28
  • 杨龙
  • 杨龙 - 副教授-南京大学-地理与海洋科学学院-个人资料

近期热点

资料介绍

个人简历


1986年生。2005-2009年就读河海大学水文与水资源工程专业本科,2009-2014年清华大学水利水电工程系博士,2014-2019年在美国普林斯顿大学土木与环境工程系担任博士后助理研究员,2019年3月起在南京大学地理与海洋科学学院担任副教授。在Geophysical research Letters, Water Resources Research, Nature Climate Change, Nature geosciences等国内外一流学术期刊发表论文50余篇。入选中组部“海外高层次人才引进计划”青年项目。主要从事水文水资源相关教学科研工作。
讲授课程:水文学(本科生),水资源水环境(本科生),水文过程(研究生)
主持的科研项目
国家自然科学基金青年项目,城市复杂下垫面对致洪暴雨的影响研究(2021年1月-2023年12月)
江苏省自然科学基金青年项目,城市致洪暴雨的时空分布特征及临近预报研究(2019年7月-2021年7月)
水沙科学与水利水电工程国家重点实验室开放基金(2020年1月-2021年12月)
中央高校基本科研业务费,人才启动项目(2020年1月-2020年12月)
参与的科研项目
国家自然科学基金中瑞国际合作项目,气候变化对长江和湄公河流域水文水资源的影响(2020年1月-2022年12月),研究骨干
国家自然科学基金委重大研究计划“西南河流源区径流变化和适应性利用”集成项目(2021年1月-2023年12月),研究骨干

研究领域


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近期论文


2021
[52] Yang, L.*, Ni, G., Tian, F., Niyogi, D., Urbanization exacerbated rainfall over European suburbs under a warming climate, Geophysical Research Letters, 48 (21), e2021GL095987, 2021.
[51] Yang, L.*, Yang, Y., Villarini, G., Li, X., Hu, H., Wang, L., Bloschl, G., Tian, F.*, Climate more important for Chinese flood changes than reservoirs and land use, Geophysical Research Letters, 48(11), e2021GL093061, 2021.
[50] Yang, L.*, Li, Q., Yuan, H., Niu, Z., Wang, L., Impacts of urban canopy on two convective storms with contrasting synoptic conditions over Nanjing, China, Journal of Geophysical Research: Atmospheres, 126(9), e2020JD034509, 2021.
[49] Yang, L.*, Yang, Y., Smith, J., The upper tail of flood peaks over China: hydrology, hydrometeorology, and hydroclimatology. Water Resources Research, 57 (11), e2021WR030883, 2021.
[48] Zeng, Z.*, Wang, D., Yang, L., et al., Deforestation-induced warming over tropical mountain regions regulated by elevation, Nature Geoscience, 14, 23-29, 2021.
[47] Li, Q., Yang, J.*, Yang, L., Impact of urban roughness representation on regional hydrometeorology: an idealized study, Journal of Geophysical Research: Atmospheres, 126 (4), 2021.
[46] Pan, Y., Guo, J., Yang, L., Yuan, Q., Ren, Z., Wang, L.*, Numerical simulations of non-point source pollution in a small urban catchment: identification of pollution risk areas and effectiveness of source-control measures, Water, 13(1), 96, 2021.
[45] Guo, J.*, Zuo, P., Yang, L., et al., Quantitative identification of non-point sources of nitrate in urban channels based on dense in-situ samplings and nitrate isotope composition, Chemosphere, 263, 2021.
[44] Liu, M., Smith, J., Yang, L., and Vecchi, G., Tropical cyclone flooding in the Carolinas.Journal of Hydrometeorology, in press, 2021.
[43] Wang, D., Wu, J., Huang, M., Li, L., Wang, D., Lin, T., Dong, L., Li, Q., Yang, L., Zeng, Z.*, The critical effect of subgrid-scale scheme on simulating the climate impacts of deforestation, Journal of Geophysical Research: Atmospheres, 126 (17), e2021JD035133, 2021.
[42] Li, K., Tian, F.*, Ali Khan, M., Xu, R., He, Z., Yang, L., Lu, H., Ma, Y., A high-accuracy rainfall dataset by merging multi-satellites and dense gauges over southern Tibetan Plateau for 2014-2019 warm seasons, Earth System Science Data, in press, 2021.
[41] Wang, Q., Xu, Y.*, Cai, X., Tang, J., Yang, L., Role of underlying surface, rainstorm and antecedent wetness condition on flood responses in small and medium sized watersheds in the Yangtze River Delta region, China, Catena, 206, 2021.
2020
[40] Li, R., Du, J., Bian, G., Wang, Y., Chen, C., Zhang, X., Li, M.,Wang, S.,Wu, S., Xie, S., Yang, L.*, and Xu, C., An integrated modelling approach for flood simulation in the urbanized Qinhuai River basin, China, Water Resources Management, 34, 3967-3984, 2020.
[39] Yang, L.*, Villarini, G., Zeng, Z., Smith, J., Liu, M., Li, X.,Wang, L., Hou, A.*, Riverine flooding and landfalling tropical cyclones over China, Earth’s Future, 8 (3), e2019EF001451, 2020.
[38] Wang, J., Xu, Y., Yang, L., Wang, Q., Yuan, J., Wang, Y., Data assimilation of high-resolution satellite rainfall product improves rainfall simulation associated with landfalling tropical cyclones in the Yangtze River Delta, Remote Sensing, 12(2), 276, 2020.
[37] Zhao, J., Yang, L., Li, L.,Wang, L., Hu, Q.,Wang, Y., Analysis of the lake-effect on precipitation in the Taihu Lake basin based on the GWR merged precipitation, Water, 12(1), 180, 2020.
[36] Liu, M., Yang, L., Smith, J., Vecchi, G., Response of extreme rainfall for landfalling tropical cyclones undergoing extratropical transition to projected climate change: Hurricane Irene (2011), Earth’s Future, 8 (3), e2019EF001360, 2020.
[35] Guo, J., Wang, L., Yang, L., et al., Spatial-temporal characteristics of nitrogen degradation in typical rivers of Taihu Lake Basin, China, Science of the Total Environment, 713, 136456, 2020.
[34] 高洁,杨龙,考虑非平稳性特征的雅砻江流域洪水量化分析,水力发电,46(9):55-62,2020.
2019
[33] Smith, J.A., Baeck, M.L., Yang, L., Signell, J., Morin, E., Goodrich, D., 'The proxysmal precipitation of the desert': flash floods in the southewestern US, Water Resources Research, 55. https://doi.org/10.1029/ 2019WR025480, 2019.
[32] Yang, L.*, Wang, L., Li, X., Gao, J., On the flood peak distributions over China, Hydrology and Earth System Sciences, 23, 5133–5149, 2019.
[31] Zeng, Z., Ziegler, A., Searchinger, T., Yang, L., Chen, A., Ju, K., Piao, S., Li, L., Ciais, P., Chen, D., Liu, J., Azorin-Molina, C., Chappell, A., Medvigy, D., and Wood, E., A reversal in global terrestrial stilling and its implications for wind energy production, Nature Climate Change, 9, 979-985, 2019.
[30] Xing,Y., Ni, G., Yang, L.*, Xing, P., Sun, T., Modeling the impacts of urbanization and open water surface on heavy convective rainfall: a case study over the emerging Xiong‘an city, China, Journal of Geophysical Research: Atmospheres, 124(16), 9078-9098, 2019.
[29] Zhang,X., Chen, N., Sheng, H., Ip, C., Yang, L.,et al., Urban drought challenge to 2030 sustainable development goals, Science of the Total Environment, 693, 133536, 2019.
[28] Yang, Y., Smith, J.A., Yang, L.*, Baeck, M. L., and Ni, G., Regional impacts of urban irrigation on surface heat fluxes and rainfall in central Arizona, Journal of Geophysical Research: Atmospheres, 124, 2019.
[27] Yang, L.*, Smith, J.A., Baeck, M. L., and Morin, E., Flash flooding in arid/Semi-arid Regions: climatological analyses of flood-producing storms in central Arizona during North American Monsoon, Journal of Hydrometeorology, 20(7), 1449-1471, 2019.
[26] Yang, L.*, Smith, J.A., and Niyogi, D., Urban impacts on extreme monsoon rainfall and flooding in complex terrain, Geophysical Research Letters, 46, 59185927, 2019.
[25] Yang, L.*, Smith, J.A., Liu, M., and Baeck, M.L., Extreme rainfall from Hurricane Harvey (2017): empirical intercomparisons of WRF simulations and polarimetric radar fields, Atmospheric Research, 223, 114-131, 2019.
[24] Zhou, Z., J.A. Smith, D. Wright, M.L. Baeck, Yang, L., and S. Liu, Storm catalog-based analysis of rainfall heterogeneity and frequency in a complex physiographic setting, Water Resources Research, 55, 2019.
2018
[23] Yang, L*. and J.A. Smith, Sensitivity of extreme rainfall to atmospheric moisture content in the arid/Semi-arid southwestern US: implications for probable maximum precipitation estimates, Journal of Geophysical Research: Atmospheres, 123 (3), 1638-1656, 2018.
[22] Zeng, Z., Piao, S., Li, L., Ciais, P., Li, Y., Cai, X., Yang, L., Liu, M., and Wood, E., Global terrestrial stilling: does Earths greening play a role? Environmental Research Letters, 13, 124013, 2018.
[21] Smith, J.A., M.L. Baeck, A. Cox, Yang, L., and P. Bates, Strange floods: the upper tail of flood peaks in the US, Water Resources Research, 54, 6510-6542, 2018.
[20] Tian, F., S. Hou, Yang, L., H. Hu and A. Hou, How does the evaluation of GPM IMERG rainfall product depend on gauge density and rainfall intensity? Journal of Hydrometeorology, 19, 339-349, 2018.
[19] Veldhuis, M., Z. Zhou, Yang, L., S. Liu and J.A. Smith, The role of storm scale, position and movement in controlling urban flood response, Hydrology and Earth System Sciences, 22, 417-436, 2018.
2017
[18] Yang, L.*, J.A. Smith, M.L. Baeck, E. Morin and D. Goodrich, Flash flooding in arid/semi-arid regions: dissecting the hydrometeorology and hydrology of the 19 August 2014 storm and flood hydroclimatology in Arizona, Journal of Hydrometeorology, 18 (12): 3103-3123, 2017.
[17] Zhou, Z., J.A. Smith, Yang, L., M.L. Baeck, M. Chaney, M. Veldhuis, H. Deng, S. Liu, The complexities of urban flood response: flood frequency analyses for the Charlotte Metropolitan Region, Water Resources Research, 53 (8): 7401-7425, 2017.
[16] Xu, R., F. Tian, Yang, L., H. Hu, A. Hou, H. Lu, Ground validation of GPM IMERG and TRMM 3B42V7 rainfall products over southern Tibet Plateau based on a high-density rain gauge network, Journal of Geophysical Research-Atmospheres, 122 (2): 910-924, 2017.
[15] He, Z., Yang, L., F. Tian, G. Ni, A. Hou and H. Lu, Intercomparisons of rainfall estimates from the TRMM and GPM multi-satellite products over the Upper-Mekong River basin, Journal of Hydrometeorology, 18: 413-430, 2017.
[14] Yang, L.*, M. Liu, J.A. Smith and F. Tian, Typhoon Nina and the August 1975 flood over Central China, Journal of Hydrometeorology, 18: 451-472, 2017.
2016
[13] Yang, L.*, J.A. Smith, M.L. Baeck and Y. Zhang, Flash flooding in small urban watersheds: storm event hydrologic response, Water Resources Research, 52, 2016.
[12] Yang, L.*, J.A. Smith, M.L. Baeck, B. K. Smith, F. Tian and D. Niyogi, Structure and evolution of flash flood producing storms in a small urban watershed, Journal of Geophysical Research: Atmospheres, 121: 3139-3152, 2016.
[11] Yang, L.*, D. Niyogi, T. Mukul, A. Daniel, F. Chen, F. Tian and G. Ni, Contrasting impacts of urban forms on future thermal environment: example of Beijing metropolitan area, Environmental Research Letters, 11(3), 2016.
2015
[10] Li, D., T. Sun, M. Liu, Yang, L., L. Wang and Z. Gao, Contrasting responses of urban and rural surface energy budgets to heat waves explain synergies between urban heat islands and heat waves, Environmental Research Letters, 10(5), 2015.
[9] Yang, L.*, F. Tian and D. Niyogi, A need to revisit hydrologic responses to urbanization by incorporating the feedback on spatial rainfall patterns, Urban Climate, 12: 18-140, 2015.
[8] 杨龙,田富强,孙挺,倪广恒,城市化对北京地区降水的影响研究进展.水力发电学报,34(1):37-44(2015)
2014
[7] Yang, L.*, F. Tian, Y. Sun, X. Yuan and H. Hu, Attribution of hydrologic forecast uncertainty within scalable forecast windows, Hydrology and Earth System Sciences, 18: 1-12, 2014.
[6] Sun, Y, F. Tian, Yang, L., and Hu H, Exploring the spatial variability of contributions from climate variation and change in catchment properties to streamflow decrease in a mesoscale basin by three different methods, Journal of Hydrology, 508: 170-180, 2014.
[5] Yang, L.*, F. Tian, J.A. Smith and H. Hu, Urban signatures in the spatial clustering of summer heavy rainfall events over the Beijing metropolitan region, Journal of Geophysical Research: Atmospheres, 119: 2013JD020762, 2014.
2013
[4] Yang, L.*, G. Villarini, J.A. Smith, F. Tian and H. Hu, Changes in seasonal maximum daily precipitation in China over the period 1961-2006, International Journal of Climatology, 1646-1657, 2013.
[3] Yang, L.*, J.A. Smith, M.L. Baeck, E. Bou-Zeid, S. Jessup, F. Tian and H. Hu. Impact of urbanization on heavy convective precipitation under strong large-scale forcing: a case study over the Milwaukee-Lake Michigan region, Journal of Hydrometeorology, 15: 261-278, 2013.
[2] Yang, L.*, J.A. Smith, D.B. Wright, M.L. Baeck, G. Villarini, F. Tian and H. Hu, Urbanization and climate change: an examination of nonstationarities in urban flooding, Journal of Hydrometeorology, 14: 1791-1809, 2013.
[1] 杨龙,田富强,胡和平,集合径流预报方法的改进及其应用:以汉江白河站月径流预报为例,清华大学学报-自然科学版, 53(6): 606-612 (2013)
现任国际水文科学协会(IAHS)中国水资源系统分会副主席、秘书长,中国陆气关系分委会委员

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