何青

职称: 
研究员
研究专长: 
河口海岸水沙运动及河床演变
河口海岸工程泥沙应用
Email: 
qinghe@sklec.ecnu.edu.cn
联系电话: 
021-54836005
联系地址: 
上海市东川路500号,华东师范大学河口海岸学国家重点实验室(200241)
学术任职: 
国际细颗粒泥沙科学指导委员会(INTERCOH) 委员
国际泥沙学会(WASER) 委员
教育部科学技术委员会 委员
中国海洋湖沼学会 副理事长
中国海洋学会 海岸河口分会委员会 主任委员
中国水利学会 河口治理与保护专业委员会 副主任委员
中国水利学会 泥沙专业委员会 委员
长江技术经济学会 长江三角洲保护与发展专业委员会 主任委员
长江技术经济学会 理事
教育经历: 
武汉大学(原武汉水利电力学院) 水力学及河流动力学 学士 (1980-1984)
中国水利水电科学研究院 水力学及河流动力学 硕士 (1988-1991)
华东师范大学 自然地理学 博士 (1994-1998)
工作经历: 
华东师范大学,河口海岸学国家重点实验室,教授 (2003-至今)
华东师范大学,河口海岸学国家重点实验室,副教授 (1998-2003)
华东师范大学,河口海岸学国家重点实验室,讲师 (1992-1998)
中国水利水电科学研究院,泥沙研究所,助理工程师 (1984-1988)
海外工作和访学经历: 
荷兰 TUD 访问学者 (2014)
美国 LSU 访问学者 (2002)
澳大利亚 ANSTO 访问学者 (1998-1999)
美国 VIMS 访问学者 (1996)
科研项目: 
 
  主持重要项目(2010年以来)
  • 共享航次计划2023年度长江口科学考察实验研究 国家自然科学基金专项项目 (2024-2025)
  • 长江河口河势稳定性及人类驱动的转化机制研究  国家自然科学基金重点项目(长江水科学研究联合基金) (2021-2024)
  • 河口泥沙运动关键过程与滩槽格局转化研究  国家自然科学基金重点项目 (2018-2022)
  • 海上丝路河口海岸国际联合实验室 上海市科委“一带一路”国际合作项目 (2021-2024)
  • 长江河口滩涂生态脆弱区监测与安全预警关键技术  上海市科委重点项目 (2021-2023)
  • 应对转型中的河口三角洲  科技部政府间(中荷)国际科技创新合作重点项目 (2016-2021)
  • 高浊度河口航道回淤及滩槽系统响应研究   国家自然科学基金重大国际合作研究项目 (2014-2018)
  • 变化环境下长江口-杭州湾水沙响应和地貌模拟技术研究  上海市科委重点项目 (2017-2019)
  • 河口泥沙输运在自然和人类驱动下的响应和源汇转化研究  国家自然科学基金面上项目 (2013-2016)
  • 长江口南北槽口外水沙输移特征分析  交通运输部科技项目 (2015-2017)
  • 河口潮滩系统演变及其对气候变化和人类活动的响应  上海市科委国际合作 (2012-2014)
  • 复杂潮汐影响河段水沙输移特性及航道演变关系研究  交通运输部科技项目 (2011-2012)
  • 长江口近期演变及工程响应研究  水利部公益项目 (2012-2014)
  • 长江河口水沙输运时间研究  国家自然科学基金面上项目 (2011-2013)
课程教学: 
泥沙运动力学
河口海岸概论
工程水文学(陆地水文)
学术论文: 
 
  代表性论文(2009年至今)
  1. Sun J, van Prooijen B, Wang X, Hanssen J, Xie W, Lin J, Xu Y, He Q, Wang Z. Sources of suspended sediments in salt marsh creeks: Field measurements in China and the Netherlands. Geomorphology, 2024,456:109206.
  2. Sun J, van Prooijen B, Wang X, Zhao Z, He Q, Wang Z. Sediment fluxes within salt marsh tidal creek systems in the Yangtze Estuary. Geomorphology, 2024,449:109031.
  3. Xue L, Li T, Li X, Bi Y, Su L, Song Y, Zhao W, Ge J, He Q, Shi B. Short-term evolution pattern in salt marsh landscapes: the importance of physical constraints. Landscape Ecology, 2024,39(5).
  4. Wu X, He Q, Shen J, Peng Z, Guo L, Xie W, Lin J. Different effects between cold front and tropical cyclone on short-term morphodynamics in the Changjiang Delta. Journal of Marine Systems, 2024,243:103961.
  5. Jiang J, Xie W, Zhang N, Xu Y, Zhu C, Lin J, Guo L, Shen J, He Q, 2024. Mechanism of rapid accretion-erosion transition in a complex hydrodynamic environment based on refined in-situ data. Frontiers in Marine Science, 10: 1375085.
  6. Guo L, Zhu C, Cai H, Wang Z B, Townend I, He Q. River Flow Induced Nonlinear Modulation of M4 Overtide in Large Estuaries. Estuaries and coasts, 2023,46(4):925-940.
  7. Zhu, C., van Maren, D.S., Guo, L., He, Q. and Wang, Z.B., 2023. Impact of Reduced Fluvial Sediment Supply on Saltwater Intrusion in the Yangtze Estuary. Earth's future, 11(10): e2022EF003274
  8. Zhao, Y., Peng, Z., He, Q.. and Ma, Y., 2023. Wave attenuation over combined salt marsh vegetation. Ocean Engineering, 267: 113234
  9. Zhu, Chunyan; Zhang, Yuning; van Maren, Dirk Sebastiaan; Xie, Weiming; Guo, Leicheng; Wang, Xianye; He, Qing, 2023. Modulation of sediment load recovery downstream of Three Gorges Dam in the Yangtze River, Anthropocene Coasts, 6(1):2
  10. Xie W, Sun J, Guo L, Xu F, Wang X, Ji H, Fan Y, Wang ZB, He Q, 2023. Distinctive sedimentary processes on two contrasting tidal flats of the Yellow River Delta. Frontiers in Marine Science, 10: 1259081
  11. Guo L, Zhu C, Xu F, Xie W, van der Wegen M, Townend I, Wang Z B, He Q. Reclamation of Tidal Flats Within Tidal Basins Alters Centennial Morphodynamic Adaptation to Sea‐Level Rise. Journal of Geophysical Research: Earth Surface, 2022,127(6).
  12. Luo, W., Shen, F., He, Q., Cao, F., Zhao, H. and Li, M., 2022. Changes in suspended sediments in the Yangtze River Estuary from 1984 to 2020: Responses to basin and estuarine engineering constructions. Science of The Total Environment, 805: 150381.
  13. Zhang, Dai; Xie, Weiming; Shen, Jian; Guo, Leicheng; Chen, Yu; He, Qing, 2022. Sediment dynamics in the mudbank of the Yangtze Estuary under regime shift of source and sink, International Journal of Sediment Research, 37(1):97-109
  14. Zhu, Chunyan; Maren, D. S.; Guo, Leicheng; Lin, Jianliang; He, Qing; Wang, Zheng Bing, 2022. Feedback effects of sediment suspension on transport mechanisms in estuarine turbidity maximum, Journal of Geophysical Research-Oceans, 127(6):e2021JC018029
  15. Guo L, Xie W, Xu F, Wang X, Zhu C, Meng Y, Zhang W, He Q. A historical review of sediment export–import shift in the North Branch of Changjiang Estuary. Earth Surface Processes and Landforms, 2021.
  16. Xu, F., Coco, G., Townend, I., Guo, L., He, Q., Zhao, K. and Zhou, Z., 2021. Rationalizing the Differences Among Hydraulic Relationships Using a Process‐Based Model. Water Resources Research, 57(8).
  17. Guo L, Xu F, van der Wegen M, Townend I, Wang Z B, He Q. Morphodynamic adaptation of a tidal basin to centennial sea-level rise: The importance of lateral expansion. Continental Shelf Research, 2021,226:104494.
  18. Guo L, Zhu C, Xie W, Xu F, Wu H, Wan Y, Wang Z, Zhang W, Shen J, Wang Z B, He Q. Changjiang Delta in the Anthropocene: Multi-scale hydro-morphodynamics and management challenges. Earth-Science Reviews, 2021,223:103850.
  19. Chen C, Tian B, Schwarz C, Zhang C, Guo L, Xu F, Zhou Y, He Q. Quantifying delta channel network changes with Landsat time-series data. Journal of Hydrology, 2021,600:126688.
  20. Wang J, Huang D, Xie W, He Q, Du J. Particle Dynamics in a Managed Navigation Channel Under Different Tidal Conditions as Determined Using Multiple Radionuclide Tracers. Journal of Geophysical Research: Oceans, 2021,126(3).
  21. Xie, Weiming; Guo, Leicheng; Wang, Xianye; He, Qing; Dou, Shentang; Yu, Xin, 2021. Detection of seasonal changes in vegetation and morphology on coastal salt marshes using terrestrial laser scanning, Geomorphology, 380:107621
  22. Xie, Weiming; Wang, Xianye; Guo, Leicheng; He, Qing; Dou, Shentang; Yu, Xin, 2021. Impacts of a storm on the erosion process of a tidal wetland in the Yellow River Delta, Catena, 205:105461
  23. Ren, Jianbo; Xu, Fan; He, Qing; Shen, Jian; Guo, Leicheng; Xie, Weiming; Zhu, Lei, 2021. The role of a remote tropical cyclone in sediment resuspension over the subaqueous delta front in the Changjiang Estuary, China, Geomorphology, 377:107564
  24. Guo, Chao; Manning, Andrew J.; Bass, Sarah; Guo, Leicheng; He, Qing, 202. A quantitative lab examination of floc fractal property considering influences of turbulence, salinity and sediment concentration, Journal of Hydrology, 601:126574
  25. Lin, Jianliang; van Prooijen, Bram C.; Guo, Leicheng; Zhu, Chunyan; He, Qing; Wang, Zheng Bing, 2021. Regime shifts in the Changjiang (Yangtze River) Estuary: The role of concentrated benthic suspensions, Marine Geology, 433:106403
  26. Zhu, Chunyan; Lin, Jianliang; van Prooijen, Bram C.; Guo, Leicheng; He, Qing; Wang, Zheng Bing, 2021. Effects of Sediment-Induced Density Gradients on the Estuarine Turbidity Maximum in the Yangtze Estuary, Journal of Geophysical Research: Oceans, 126(5):e2020JC016927
  27. Zhu, Chunyan; van Maren, D. S.; Guo, Leicheng; Lin, Jianliang; Wang, He, Qing; Zheng Bing, 2021. Exploration of decadal tidal evolution in response to morphological and sedimentary changes in the Yangtze Estuary, Journal of Geophysical Research: Oceans, 126(9):e2020JC017019
  28. Deng, Zhirui; He, Qing; Chassagne, Claire; Wang, Zheng Bing, 2021. Seasonal variation of floc population influenced by the presence of algae in the Changjiang (Yangtze River) Estuary, Marine Geology, 440:106600
  29. Chen, Yu; He, Qing; Shen, Jian; Du, Jiabi, 2020. The alteration of lateral circulation under the influence of human activities in a multiple channel system, Changjiang Estuary, Estuarine Coastal and Shelf Science, 242:106823
  30. Zhu, Lei; He, Qing; Shen, Jian, 2020. Response of Stratification Processes to Tidal Current Alteration due to Channel Narrowing and Deepening, Journal of Geophysical Research: Oceans, 125(2):15223
  31. Lin, Jianliang; He, Qing; Guo, Leicheng; van Prooijen, Bram C.; Wang, Zheng Bing, 2020. An integrated optic and acoustic (IOA) approach for measuring suspended sediment concentration in highly turbid environments, Marine Geology, 421:106062
  32. Xu, F., Coco, G., Zhou, Z., Townend, I., Guo, L. and He, Q., 2020. A Universal Form of Power Law Relationships for River and Stream Channels. Geophysical Research Letters, 47(20).
  33. Guo, L., Zhu, C., Wu, X., Wan, Y., Jay, D.A., Townend, I., Wang, Z.B. and He, Q., 2020. Strong Inland Propagation of Low-Frequency Long Waves in River Estuaries. Geophysical Research Letters, 47(19): e2020GL089112.
  34. Guo L, Wang Z B, Townend I, He Q. Quantification of tidal asymmetry and its non-stationary variations. Journal of Geophysical Research: Oceans, 2019.
  35. Guo L, Su N, Townend I, Wang Z B, Zhu C, Wang X, Zhang Y, He Q. From the headwater to the delta: A synthesis of the basin-scale sediment load regime in the Changjiang River. Earth-Science Reviews, 2019:102900.
  36. Zhu C, Guo L, Maren D S, Tian B, Wang X, He Q, Wang Z B. Decadal morphological evolution of the mouth zone of the Yangtze Estuary in response to human interventions. Earth Surface Processes and Landforms, 2019,44(12):2319-2332.
  37. Zhirui Deng, Qing He, Zeinab Safar, Claire Chassagne, 2019. The role of algae in fine sediment flocculation: In-situ and laboratory measurements, Marine Geology, 413:71-84
  38. Xie W, He Q, Zhang K, Guo L, Wang X, Shen J,2018.Impacts of human modifications and natural variations on short-term morphological changes in estuarine tidal flats,Estuaries and Coasts,5:1253-1267
  39. Guo, C., He, Q., van Prooijen, B.C., Guo, L., Manning, A.J., Bass, S.,2018.Investigation of flocculation dynamics under changing hydrodynamic forcing on an intertidal mudflat,Marine Geology,395:120-132
  40. Jie Zhao, Leicheng Guo, Qing He, Zhengbing Wang, D.S. van Maren, Xianye Wang,2018.An analysis on half century morphological changes in the Changjiang Estuary: spatial variability under natural processes and human intervention,Journal of Marine Systems,181: 25-36
  41. Guo L, Su N, Zhu C, He Q, 2018.How have the river discharges and sediment loads changed in the Changjiang River basin downstream of the Three Gorges Dam?,Journal of Hydrology,560: 259-274
  42. Weiming Xie, Qing He, Xianye Wang, Leicheng Guo, Keqi Zhang,2018.Role of mudflat-creek sediment exchanges in intertidal sedimentary processes,Journal of Hydrology,567: 351-360
  43. Guo Leicheng, Zheng Bing Wang, Ian H. Townend, He Qing, 2018.Quantification of Tidal Asymmetry and Its Nonstationary Variations,Journal of Geophysical Research: Oceans,(2). DOI: 10.1029/2018JC014372
  44. Zhu L., He Q., Shen J.,2017. Modeling lateral circulation and its influence on the along-channel flow in a branched estuary,Ocean Dynamics,2017:1-15
  45. Weiming Xie, Qing He, Keqi Zhang, Leicheng Guo, Xianye Wang, Jian Shen, Zheng Cui,2017.Application of terrestrial laser scanner on tidal flat morphology at a typhoon event timescale, Geomorphology,292:47-58
  46. Guo C., He Q., Guo L., Winterwerp, J. C., 2017. A study of in-situ sediment flocculation in the turbidity maxima of the Yangtze Estuary,Estuarine, Coastal and Shelf Science,191:1-9
  47. L Zhu, Q He, J Shen, Y Wang,2016.The influence of human activities on morphodynamics and alteration of sediment source and sink in the Changjiang Estuary,Geomorphology,273:52-62  
  48. Wang, X. Y., Xie, W. M., Zhang, D., & He, Q., 2016.Wave and vegetation effects on flow and suspended sediment characteristics: A flume study, Estuarine Coastal & Shelf Science,182:1-11
  49. L Guo, MVD Wegen, ZB Wang, D Roelvink, Q He, 2016.Exploring the impacts of multiple tidal constituents and varying river flow on long-term, large scale estuarine morphodynamics by means of a 1D model,Journal of Geophysical Research Earth Surface,5:1000-1022
  50. Guo Leicheng, Mick V D W, Jay D A, Matte P, ZB Wang, Roelvink D, He Qing,2015. River-tide dynamics: Exploration of nonstationary and nonlinear tidal behavior in the Yangtze River estuary,Journal of Geophysical Research Oceans,5:3499-3521
  51. Guo Leicheng, Wegen M V D, Roelvink D, ZB Wang, He Qing,2015. Long-term, process-based morphodynamic modeling of a fluvio-deltaic system, part I: The role of river discharge,Continental Shelf Research,109:95-111
  52. Guo Leicheng, Mick V D W, Roelvink D, He Qing,2015. Exploration of the impact of seasonal river discharge variations on long-term estuarine morphodynamic behavior,Coastal Engineering,95:105-116
  53. Wang Ya, Shen Jian, He Qing*, Zhu Lei, Zhang Dai,2015. Seasonal variations of transport time of freshwater exchanges between Changjiang Estuary and its adjacent regions,Estuarine Coastal & Shelf Science,157:109-119
  54. S. te Slaa, D.S. van Maren, Qing He, J.C. Winterwerp,2015. Hindered Settling of Silt,Journal of Hydraulic Engineering,141(9)
  55. Guo Leicheng, van der Wegen, M.; Roelvink, J. A.; He Qing,2014. The role of river flow and tidal asymmetry on 1-D estuarine morphodynamics,Journal of Geophysical Research: Earth Surface,119(11):2315-2334
  56. Wang Xianye, Yuan Dailiang, He Qing, Wang Xiekang,2014. Effects of intertidal wetland vegetation and suspended sediment on flow velocity profiles and turbulence characteristics,Estuarine, Coastal and Shelf Science,146: 128-138
  57. Wang Zheng Bing, Winterwerp Johan C., He Qing,2014. Interaction between suspended sediment and tidal amplification in the Guadalquivir Estuary,Ocean Dynamics,64(10): 1487-1498
  58. Steven te Slaa, Qing He, Dirk Sebastiaan van Maren et al., 2013. Sedimentation processes in silt-rich sediment systems, Ocean Dynamics, 63:399-421
  59. Leicheng Guo, Qing He*, 2011. Freshwater flocculation of suspended sediments in the Yangtze River, China, Ocean Dynamics, 61:371-386
  60. Hong Liu, Qing He*, Zhengbing Wang, Gert Jan Weltje, Jing Zhang, 2010. Dynamics and spatial variability of near-bottom sediment exchange in the Yangtze Estuary, China. Estuarine, Coastal and Shelf Science, 86:322-330, 2010.
  61. Ya Wang, Jian Shen, Qing He*,2010. A numerical model study of the transport timescale and change of estuarine circulation due to waterway constructions in the Changjiang Estuary, China,Journal of Marine Systems,82 (2010), pp. 154-170,
  62. 朱春燕, 董坚, 谢卫明, 郭磊城, 何青*, 2024. 特大洪水期间长江口浑浊带分粒级输沙特征. 海洋通报, 网络首发.
  63. 邓珂, 彭忠, 于海升, 赵颖, 朱植阳, 何青, 2024. 长江口潮滩高分辨率波流耦合模型. 海洋通报, 网络首发.
  64. 董坚, 何青*, 林建良, 陈嘉民, 周思敏, 徐凡, 谢卫明, 郭磊城, 2023. 长江口特大洪水浑浊带悬沙粒度分布特征. 海洋通报, 42(01):48-58.
  65. 彭忠, 王长波, 刘利, 吕振华, 朱学明, 何青, 李武, 宋德海, 周烜, 武文, 柴扉, 彭伟, 彭伟, WANG Zhengbing, YE Qinghua. 河口海岸数字孪生建设与挑战(特邀). 海洋技术学报, 2023, 42 (06): 1-12.
  66. 喻丰华, 方神光, 何用, 何青, 2023. 澳门东侧水域夏季余流及通量的时空变化特征. 华东师范大学学报(自然科学版), (3):147-157.
  67. 陈嘉民, 何青*, 谢卫明, 郭磊城, 2022. 三峡工程后长江口徐六泾入海水沙特征变化研究. 泥沙研究, 47(3):60-66.
  68. 侯仲荃, 石进, 王宪业, 郭磊城, 谢卫明, 徐凡, 黄明毅, 何青*, 2022. 空心块体水沙动力及泥沙淤积特性研究. 海洋学报(中文版), 44(5):124-133.
  69. 吴增斌, 郭磊城, 吴雪枫, 何青*, 2022. 2020年特大洪水作用下长江口南槽水沙输移特征. 海洋与湖沼, 53(2):295-304.
  70. 于上, 谢卫明, 何青*, 王宪业, 赵中豪, 郭磊城, 徐凡, 2022. 黄河口潮滩泥沙絮凝研究. 海洋学报(中文版), 44(11):99-110.
  71. 张迨, 何青*, 谢卫明, 郭磊城, 林建良, 2022. 长江口浑浊带至口外海滨输沙变化研究. 长江流域资源与环境, 31(12):2682-2692.
  72. 张雨宁, 郭磊城, 于海升, 何青*, 2022. 大坝影响下长江干流悬沙粒度变化特征. 泥沙研究, 47(1):51-58.
  73. 陈沁泽, 王宪业, 赵中豪, 何青*, 2021. 粒度与含水率对泥沙流变特性影响的试验研究. 泥沙研究, 46(6):58-64.
  74. 郭超, 何青*, 2021. 黏性泥沙絮凝研究综述与展望. 泥沙研究, 46(2):66-73.
  75. 郭磊城, 朱磊, 陈语, 何青*, 2021. 河口航道治理中导堤丁坝工程措施的影响探讨. 泥沙研究, 46(4):54-59.
  76. 侯仲荃, 何青*, 王宪业, 谢卫明, 徐凡, 2021. 生态空心块体水沙动力效应研究. 海洋通报, 40(3):327-336.
  77. 乔宇, 何青*, 王宪业, 2021. 长江口表层沉积物起动试验研究. 泥沙研究, 46(1):34-41.
  78. 吴雪枫, 何青*, 郭磊城, 王宪业, 张迨, 2021. 杭州湾北岸多年水沙特性变化及原因探讨. 长江流域资源与环境, 30(4):839-848.
  79. 于上, 何青*, 陈语, 邓智瑞, 2021. 长江口最大浑浊带悬沙粒度对流域减沙的响应研究. 泥沙研究, 46(4):60-67.
  80. 陈思明, 王宪业, 孙健伟, 何青*, 2020. 粉砂淤泥质潮滩表层沉积物可侵蚀性研究. 泥沙研究, 45(1):45-51.
  81. 乔立新, 张国安, 何青*, 张卫国, 李茂田, 2020. 长江分汊河口涨、落潮悬沙不对称特征及季节性差异. 海洋学报, 42(03):107-117.
  82. 乔宇, 何青*, 王宪业, 孟翊, 2020. 长江口表层沉积物含水量影响因素分析. 泥沙研究:1-8.
  83. 彭子源, 蒋雪中, 候立军, 何青*, 2020. 1982和2012年枯季长江口最大浑浊带悬浮泥沙和盐度垂向剖面特征对比. 海洋地质前沿, 36(01):7-18.
  84. 任剑波, 何青*, 沈健, 徐凡, 郭磊城, 谢卫明, 朱磊, 2020. 远区台风“三巴”对长江口波浪动力场的作用机制. 海洋科学, 44(05):12-23.
  85. 郭超, 何青*, 郭磊城, 王宪业, 2019. 紊动对黏性细颗粒泥沙絮凝沉降影响的试验研究. 泥沙研究, 44(2):18-25.
  86. 蒋杰, 何青*, 朱磊, 林建良, 2019. 长江口浑浊带核心区北槽水动力特征研究. 海洋学报(中文版), 41(1):11-20.
  87. 任剑波, 何青*, 沈健, 郭磊城, 徐凡, 2019. 远区台风“三巴”对河口波浪增水和波生流影响数值模拟研究. 海洋学研究, 37(03):21-30.
  88. 谢卫明, 何青*, 张迨, 朱磊, 郭磊城, 王宪业, 2019. 河口潮滩地貌和沉积物对人类工程的响应特征. 海洋学报, 41(05):118-127.
  89. 刘帅, 何青*, 谢卫明, 郭磊城, 沈芳, 2019. 近15年来长江口控制站徐六泾悬沙变化特征研究. 长江流域资源与环境, 28(05):1197-1204.
  90. 陈语, 何青*, 张雨宁, 林建良, 2019. 长江口浑浊带洪季悬沙粒度分布特征,泥沙研究,5:48-55
  91. 金镠, 虞志英, 何青*, 2018. 淤泥质海岸波致液化及航道骤淤问题初步研究,水运工程,12,104-109.
  92. 葛芳,田波,周云轩,何青*,钱伟伟,2018.海岸带典型盐沼植被消浪功能观测研究,长江流域资源与环境,8,1784-1792.
  93. 王诗妮,蒋雪中,何青*,2017.长江口不同河段表层细颗粒泥沙絮凝特性,泥沙研究,2,47-53.
  94. 郭磊城,朱春燕,何青*,Wang Zheng Bing,万远扬,2017.长江河口潮波时空特征再分析,海洋通报,6,652-661.
  95. 谢卫明,何青*,王宪业,郭磊城,郭超,2017.潮沟系统水沙输运研究---以长江口崇明东滩为例,海洋学报,7,80-91.
  96. 林建良,何青*,杨清书,邓智瑞,2017.珠江磨刀门河口洪季泥沙絮凝机理研究,泥沙研究,01,60-67.
  97. 郭超;何青*;郭磊城,2016.长江河口控制站泥沙絮凝特性研究,泥沙研究,5,60-65.
  98. 邢超锋;何青*;王宪业;周云轩,2016.崇明东滩地貌演变对生态治理工程的响应研究,泥沙研究,4,41-48.
  99. 陈语;何青*;张迨;郭超,2016.长江口浑浊带枯季悬沙粒度分布特征,泥沙研究,1,24-30.
  100. 邓智瑞;何青*;邢超锋;郭磊城;王宪业,2016.长江口北槽柱状沉积物粒度分布特征及沉积环境指示意义,海洋科学,1,112-122.
  101. 邓智瑞,何青*,杨清书,林建良,2015. 珠江口磨刀门泥沙絮凝特征,海洋学报,9,152-161.
  102. 鲁海燕,何青,潘存鸿,2015. 钱塘江强涌潮河段水沙数值模拟,泥沙研究,5,24-30.
  103. 谢卫明,何青*,章可奇,王宪业,2015. 三维激光扫描系统在潮滩地貌研究中的应用,1,1-6.
  104. 邢超锋,何青*,邓智瑞,王宪业,郭磊城,2015. 长江口航道柱样沉积物特征及泥沙来源,海洋地质与第四纪地质,5,9-17.
  105. 邢超锋,何青*,郭磊城,邓智瑞,2015. ASM在近底泥沙浓度剖面观测中的应用研究,泥沙研究,6,46-51.
  106. 张迨,何青*,沈健,陈语,2015. 长江口浑浊带水沙特性研究,泥沙研究,4,31-37.
  107. 赵捷,何青*,王宪业,郭磊城,2015. 长江口南北支水沙特性观测研究,长江流域资源与环境,1,21-29.
  108. 赵捷,何青*,虞志英,金鏐,2014. 长江口北槽深水航道回淤泥沙来源分析,泥沙研究,5,18-24.
  109. 王亚,何青*,沈健,2014. 长江河口水流输运时间的研究,海洋学报,1,48-55.
  110. 谢卫明,田欣,郭磊城,何青*,2014. 长江口徐六泾水沙过程对流域的响应研究,长江流域资源与环境,9,1251.
  111. 郭超,何青*,2014. 长江中下游洪枯季泥沙絮凝研究,泥沙研究,5,59-64.
  112. 蒋丰佩,何青*,张国安,王宪业,2013. 异质潮滩波浪衰减特性研究—以长江口崇明东滩为例,泥沙研究,1,45-52.
  113. 陈吉余,蒋雪中,何青,2013. 上海海洋城和深水大港建设的展望,中国工程科学,6,11-13.
  114. 陈吉余,蒋雪中,何青,2013. 长江河口发育的新阶段、上海城市发展的新空间,中国工程科学,6,21-24.
  115. 刘红,何青*,王亚,陈吉余,2012. 长江河口悬浮泥沙的混合过程,地理学报,9,1269-1281
  116. 王亚,何青*,沈健,2014. 长江河口水流输运时间研究,海洋学报,1,48-55.
  117. 郭磊城,何青Dano Roelvink, Zhengbing Wang, Mick Van Der Wegen, 2013. 河口海岸中长时间尺度动力地貌系统模拟研究与进展,地理学报,9,1182-1196.
  118. 陈锦山, 何青*, 郭磊城,2011. 长江悬浮物絮凝特征,泥沙研究,5,11-18.
  119. 刘红, 何青*, Gert Jan Weltje, 陈吉余,2011. 长江入海泥沙的交换和输移过程---兼论泥质区的泥库效应,地理学报,3,1-15.
  120. 吉晓强,何青*,刘红,Tom Ysebaert,2010. 崇明东滩水文泥沙过程分析,泥沙研究,1,46-57.
  121. 徐俊杰,何青*,王元叶,2009,底边界层水沙观测系统和应用,海洋工程,1,55-67.
  122. 王元叶,何青*,刘红,2009. 长江口浑浊带近底泥沙浓度变化,泥沙研究,6,6-13.
  123. 金鏐,虞志英,何青,2009. 关于长江口深水航道维护条件与流域来水来沙关系的初步分析,水运工程,1,91-96.
 
学术专著: 
He, Q., Guo, L., Liu, H., Wang, Y., 2015. Changjiang Estuary Sediment Transport Dynamics. In: Zhang, J. (eds) Ecological Continuum from the Changjiang (Yangtze River) Watersheds to the East China Sea Continental Margin. Estuaries of the World. Springer, C
Qing He, Johan C. Winterwerp, Andrew James Manning,The 2011 International Conference on Cohesive Sediment Transport,Ocean Dynamics, DOI 10.1007/s10236-015-0845-7
获奖情况: 
上海市科技进步 二等奖 (1998)
上海市科技进步 三等奖 (2003,2013)
上海市研究生优秀成果(学位论文)奖 (2006,2007)
中国水运行业协会科学技术 一等奖(2013)
中国航海学会科学技术 一等奖(2017)
上海市育才奖 (2019)
上海市三八红旗手 (2020)
教育部“优秀青年教师资助计划”(2003)
上海市曙光学者(2001)