葛建忠

职称: 
研究员
研究专长: 
近海环流及泥沙动力学数值模拟
物理-生物地球化学耦合数值模拟
人工智能海洋模型
高性能异构加速计算
Email: 
jzge@sklec.ecnu.edu.cn
jzge@me.com
联系电话: 
021-54836465
联系地址: 
上海市闵行区东川路500号,华东师范大学河口海岸学国家重点实验室(200241)
教育经历: 
华东师范大学 物理学 学士 (2004)
华东师范大学 港口、海岸与近海工程 硕士 (2007)
华东师范大学 自然地理学 博士 (2011)
工作经历: 
华东师范大学 理学博士 (2011)
美国麻州大学达特茅斯分校 访问学者 (2007-2009)
华东师范大学 助理研究员(2011-2015)
美国麻州大学达特茅斯分校 访问学者 (2015-2016)
华东师范大学 副研究员(2016-2020)
华东师范大学 研究员 (2021- )
海外工作和访学经历: 
美国麻州大学达特茅斯分校 访问学者 (2007-2009)
美国麻州大学达特茅斯分校 访问学者 (2015-2016)
科研项目: 

主持项目:
科技部国家重点研发计划 “复合致灾因子下河口海岸堤防安全风险评估及预警关键技术研究:变化条件下河口海岸洪潮耦合致灾机制研究” 2023-2025
国家重点研发项目  “大型水库对河流-河口系统生物地球化学过程和物质输运的影响机制 (2016YFA0600903)” 子任务   2016-2021
国家自然科学基金委员会 面上项目:洪水-台风复合作用下入海营养盐变化及其河口生态效应研究(42476160),2025-2028
国家自然科学基金委员会 面上项目 “高浊度河口近底高浓度泥沙形成机制与数值模拟研究(41776104)” 2018-2021
国家自然科学基金委员会 青年基金 “高含沙河口导堤丁坝算法的建立以及在长江口北槽的初步应用”  2014-2016
水利部科技支撑项目  “长江口北支咸潮倒灌模拟技术研究” 2014-2016
上海市自然科学基金 “洪水-台风复合作用下入海营养盐变化及其河口生态效应研究” 2024-2027
中国交通建设集团 “半开敞海域疏浚土造滩施工关键技术研究” 2024-2026
自然资源部东海分局 “黄海绿潮短期预报系统建设” 2024
上海市海洋局 “多源台风驱动下的长江口风暴潮概率数值预报技术研究” 2018-2019
上海市野生动植物和自然保护地研究中心    “横沙地区湿地生态调查与湿地资源趋势模拟项目”  2024
上海市海洋环境监测预报中心   “地波雷达通道校准及数据同化技术研究” 2023
上海市海洋环境监测预报中心 “上海市温带风暴潮预报模型更新优化” 2018
上海市海洋环境监测预报中心 “精细化保障预报-资料收集及多源数据整合” 2018
上海市海洋环境监测预报中心 “精细化保障预报” 2018、2020、2022
上海市海洋环境监测预报中心 “上海市温带风暴潮预报系统” 2017、2019、2021
上海市海洋环境监测预报中心 “上海市天文潮风暴潮预报系统升级” 2016-2017
上海市水文总站 “风暴潮数值预报模型” 2020、2022、2024
福建省水利厅 “闽江下游咸潮治理专题研究” 2023-2025
 
骨干参与项目:

国家重点研发项目 “全球变化背景下河口海岸生态系统演变与多样性维持机制:流域-河口-海岸连续体水动力过程与生态效应耦合模型构建及预测”(2024YFF0808803)2024-2029
上海市海洋局科研项目  “上海市海洋智能网格预报关键技术研究与应用”(HHK-2023-06)2023-2024
国家海洋局 “海洋预报业务化系统模块化构建与应用示范-长江口咸潮、泥沙数值预报系统” 2012-2015
国家自然科学基金委员会 面上基金 “分汊河口分流比变化对航道整治工程的响应过程与机制” 2015-2018
中南勘测设计研究院有限公司  “金沙江龙盘水库对长江河口咸水入侵的改善作用研究” 2014-2015
上海水文总站 “上海市风暴潮预报系统开发” 2013-2014
 
 
学术论文: 
  • Zhou, Z., Kuai, Y., Ge, J.*, Maren, B. van, Wang, Z., Huang, K., … Wang, Z. (2025). Modeling Non‐Stationary Wind‐Induced Fluid Motions With Physics‐Informed Neural Networks for the Shallow Water Equations in a Polar Coordinate System. Water Resources Research, 61(1). doi: 10.1029/2024wr037490
  • Zhou, F., Chen, Z., Zhou, Z., Cao, B., Xu, L., Liu, D., … Ge, J.* (2025). Predicting massive floating macroalgal blooms in a regional sea. Environmental Modelling & Software, 185, 106310. doi: 10.1016/j.envsoft.2024.106310
  • Wang, N., & Ge, J.* (2025). Predictions of saltwater intrusion in the Changjiang Estuary: Integrating Machine learning methods with FVCOM. Journal of Hydrology, 132739. doi: 10.1016/j.jhydrol.2025.132739
  • Pang, J., Ge, J.*, Tao, Y., Zhou, Q., & Zhou, Z. (2024). Simulating cross-scale flow dynamics around offshore monopile foundations with a GFD-CFD coupled model. Ocean Engineering, 312, 119200. doi: 10.1016/j.oceaneng.2024.119200
  • Yao, J., Chen, Z., Ge, J.*, & Zhang, W.* (2024). Source-to-sink pathways of dissolved organic carbon in the river–estuary–ocean continuum: a modeling investigation. Biogeosciences, 21(23), 5435–5455. doi: 10.5194/bg-21-5435-202
  • Zhu, L., Xue, P., Meadows, G. A., Huang, C., Ge, J., Troy, C. D., & Wu, C. H. (2024). Trends of Sediment Resuspension and Budget in Southern Lake Michigan Under Changing Wave Climate and Hydrodynamic Environment. Journal of Geophysical Research: Oceans, 129(4). doi: 10.1029/2023jc020180
  • Zhou, Z., Ge, J.*, Maren, D. S. van, Kuai, Y., Ding, P., and Wang, Z. B. (2024). Groyne-Induced Effects on Channel-Shoal Exchange and Saltwater Intrusion in Estuarine Environments. Journal of Hydraulic Engineering, 150(1), 04023056. https://doi.org/10.1061/jhend8.hyeng-13500
  • Fang, F.-T., Zhu, Z.-Y., Wenger, F., Ge, J.-Z., Du, J.-Z., Deng, B., … Zhang, Y. (2024). Short-term sedimentary evidence for increasing diatoms in Arctic fjords in a warming world. Science of The Total Environment, 951, 175757. doi: 10.1016/j.scitotenv.2024.175757
  • Zhou, X., Ge, J.*, Wallhead, P., and Shi, S. (2023). Changes in Nutrient Concentration Resulting From Floods and Their Impact on the Estuary–Sea Continuum. Journal of Geophysical Research: Oceans, 128(4). https://doi.org/10.1029/2022jc019327
  • Xue, L., Li, T., Li, X., Bi, Y., Su, L., Song, Y., Ge J. … Shi, B. (2024). Short-term evolution pattern in salt marsh landscapes: the importance of physical constraints. Landscape Ecology, 39(5), 103. doi: 10.1007/s10980-024-01898-w
  • Song, S., Bellerby, R., Liu, J., Guo, W., Yu, P., Ge, J., and Li, D. (2023). Impacts of an extreme Changjiang flood on variations in carbon cycle components in the Changjiang Estuary and adjacent East China sea. Continental Shelf Research, 269, 105137. https://doi.org/10.1016/j.csr.2023.105137
  • Guo, W., Yao, D., Chen, Z., Ding, P., and Ge, J. (2023). Assessment of future flood risk induced by sea level rise and tropical cyclones under global warming in the Xiamen Bay, Fujian, China. Frontiers in Marine Science, 10, 1103279. https://doi.org/10.3389/fmars.2023.1103279
  • Liu, J., Bellerby, R. G. J., Zhu, Q., & Ge, J. (2023). Estimating Sea Surface Salinity in the East China Sea Using Satellite Remote Sensing and Machine Learning. Earth and Space Science, 10(11). doi: 10.1029/2023ea003230
  • Liu, J., Bellerby, R. G. J., Zhu, Q., and Ge, J. (2023). Estimation of sea surface pCO2 and air–sea CO2 flux in the East China Sea using in-situ and satellite data over the period 2000–2016. Continental Shelf Research, 254, 104879. https://doi.org/10.1016/j.csr.2022.104879
  • Liu, Y., Wang, H., Cong, S., Zang, Z., Bi, N., Bian, C., Ge J., … Wu, X. (2023). Rapid oscillation of sediment transport between the Bohai Sea and the Yellow Sea induced by Typhoon Lekima (2019). Marine Geology, 465, 107160. doi: 10.1016/j.margeo.2023.107160
  • Xie, G., Zhang, Y., Liu, J., Xue, H., Ge, J., He, X., … Chai, F. (2023). Improvement of the sediment flux estimation in the Yangtze River Estuary with a GOCI data adjusted numerical model. Ocean Modelling, 186, 102284. doi: 10.1016/j.ocemod.2023.102284
  • Cong, S., Wu, X., Ge, J., Bi, N., Li, Y., Lu, J., & Wang, H. (2023). Intermittent migration of mixing front driven by typhoon events on the inner shelf of the East China Sea: A FVCOM modeling study. Marine Geology, 465, 107161. doi: 10.1016/j.margeo.2023.107161
     
  • Ge, J., Lu, J., Zhang, J., Chen, C., Liu, A., & Ding, P. (2022). Saltwater Intrusion‐Induced Flow Reversal in the Changjiang Estuary. Journal of Geophysical Research: Oceans, 127(11). doi: 10.1029/2021jc018270
  • Wang, S., Ge, J., Meadows, M. E., & Wang, Z. (2022). Reconstructing a late Neolithic extreme storm event on the southern Yangtze coast, East China, based on sedimentary records and numerical modeling. Marine Geology, 443, 106687. http://doi.org/10.1016/j.margeo.2021.106687
  • Song, S., Gao, L., Ge, J., Guo, W., & Li, D. (2022). Tidal effects on variations in organic and inorganic biogeochemical components in Changjiang (Yangtze River) Estuary and the adjacent East China Sea. Journal of Marine Systems, 227, 103692. http://doi.org/10.1016/j.jmarsys.2021.103692
  • Cheng, J., Jia, N., Chen, R., Guo, X., Ge, J., and Zhou, F. (2022). High-Resolution Mapping of Seaweed Aquaculture along the Jiangsu Coast of China Using Google Earth Engine (2016–2022). Remote Sensing, 14(24), 6202. https://doi.org/10.3390/rs14246202
  • Li, W., Zhou, X., Ge, J., Ding, P., and Liu, D. (2022). Formation and Breakdown of an Offshore Summer Cold-Water Zone and Its Effect on Phytoplankton. Frontiers in Marine Science, 9, 926738. https://doi.org/10.3389/fmars.2022.926738
  • Shi, S., Xu, Y., Li, W., and Ge, J. (2022). Long-term response of an estuarine ecosystem to drastic nutrients changes in the Changjiang River during the last 59 years: A modeling perspective. Frontiers in Marine Science, 9, 1012127. https://doi.org/10.3389/fmars.2022.1012127
  • Xu, Y., Zhang, J., Huang, H., Yuan, X., Zhang, J., and Ge, J. (2022). Coral Symbiosis Carbon Flow: A Numerical Model Study Spanning Cellular to Ecosystem Levels. Frontiers in Marine Science, 9, 749921. https://doi.org/10.3389/fmars.2022.749921
  • Zhou, Z., Ge, J., Maren, D. S. van, Gu, J., Ding, P., and Wang, Z. (2022). Measuring Bed Exchange Properties of Cohesive Sediments Using Tripod Data. Journal of Marine Science and Engineering, 10(11), 1713. https://doi.org/10.3390/jmse10111713
  • Wang, S., Ge, J., Meadows, M. E., & Wang, Z. (2022). Reconstructing a late Neolithic extreme storm event on the southern Yangtze coast, East China, based on sedimentary records and numerical modeling. Marine Geology, 443, 106687. http://doi.org/10.1016/j.margeo.2021.106687
  • Wang, X., Zhang, W., Yin, J., Wang, J., Ge, J., Wu, J., et al. (2021). Assessment of coastal erosion vulnerability and socio-economic impact along the Yangtze River Delta. Ocean and Coastal Management, 215, 105953. http://doi.org/10.1016/j.ocecoaman.2021.105953
  • Zhou, F., Ge, J.*, Liu, D., Ding, P., Chen, C., & Wei, X. (2021). The Lagrangian-based Floating Macroalgal Growth and Drift Model (FMGDM v1.0): Application to the Yellow Sea green tide. Geoscientific Model Development, 14(10), 6049–6070. http://doi.org/10.5194/gmd-14-6049-2021
  • Ge, J.*, Yi, J., Zhang, J., Wang, X., Chen, C., Yuan, L., et al. (2021). Impact of Vegetation on Lateral Exchanges in a Salt Marsh-Tidal Creek System. Journal of Geophysical Research: Earth Surface, 126(8). http://doi.org/10.1029/2020JF005856
  • Ge, J.*, Zhang, J., Chen, C., & Ding, P. (2021). Impacts of fluvial flood on physical and biogeochemical environments in estuary–shelf continuum in the East China Sea. Journal of Hydrology, 598, 126441. http://doi.org/10.1016/j.jhydrol.2021.126441
  • Gao, W., Shen, F.*, Tan, K., Zhang, W., Liu, Q., Lam, N. S. N., & Ge, J. (2021). Monitoring terrain elevation of intertidal wetlands by utilising the spatial-temporal fusion of multi-source satellite data: A case study in the Yangtze (Changjiang) Estuary. Geomorphology, 383, 107683. http://doi.org/10.1016/j.geomorph.2021.107683 
  • Cong, S., Wu, X., Ge, J., Bi, N., Li, Y., Lu, J., & Wang, H. (2021). Impact of Typhoon Chan-hom on sediment dynamics and morphological changes on the East China Sea inner shelf. Marine Geology, 440, 106578. http://doi.org/10.1016/j.margeo.2021.106578
  • Zheng, Y., Hou, L., Zhang, Z., Ge, J., Li, M., Yin, G., et al. (2021). Overlooked contribution of water column to nitrogen removal in estuarine turbidity maximum zone (TMZ). Science of the Total Environment, the, 788, 147736. http://doi.org/10.1016/j.scitotenv.2021.147736
  • Zhou, Z., Ge, J.*, van Maren, D. S., Wang, Z. B., Kuai, Y., & Ding, P. (2021). Study of Sediment Transport in a Tidal Channel-Shoal System: Lateral Effects and Slack-Water Dynamics. Journal of Geophysical Research-Oceans, 126(3). http://doi.org/10.1029/2020JC016334
  • Tang, R., Shen, F., Ge, J., Yang, S., & Gao, W. (2021). Investigating typhoon impact on SSC through hourly satellite and real-time field observations: A case study of the Yangtze Estuary. Continental Shelf Research, 224, 104475. http://doi.org/10.1016/j.csr.2021.104475
  • Li, W., Ge, J.*, Ding, P., Ma, J., Glibert, P. M., & Liu, D.* (2021). Effects of Dual Fronts on the Spatial Pattern of Chlorophyll-a Concentrations in and off the Changjiang River Estuary. Estuaries and Coasts, 126(1), 1–11. http://doi.org/10.1007/s12237-020-00893-z
  • Li, X., Bellerby, R. G. J.*, Ge, J., Wallhead, P., Liu, J., and Yang, A. (2020) Retrieving monthly and interannual total-scale pH (pHT) on the East China Sea shelf using an artificial neural network: ANN-pHT-v1, Geosci. Model Dev., 13, 5103–5117, https://doi.org/10.5194/gmd-13-5103-2020
  • Yin, J., Jonkman, S., Lin, N., Yu, D., Aerts, J., Wilby, R.,...,Ge, J., et al. (2020). Flood Risks in Sinking Delta Cities: Time for a Reevaluation? Earth's Future, 8(8), 543–15. http://doi.org/10.1029/2020EF001614
  • 张靖婷,王宪业,李铖,葛建忠*.基于DISTMESH的三角形网格自适应生成方法与应用[J].海洋科学进展,2020,38(03):412-424.
  • 陆佳玉,葛建忠*,丁平兴.潮控型分汊河口分流过程探讨——以长江北支口为例[J].华东师范大学学报(自然科学版),2020(03):1-12.
  • 施沈阳,葛建忠*,陈建忠,郑晓琴,丁平兴.基于FVCOM的物理—生物地球化学耦合模型构建与应用[J].华东师范大学学报(自然科学版),2020(03):55-67.
  • Li X, Bellerby RGJ*, Wallhead P, Ge J, Liu J, Liu J and Yang A (2020) A Neural Network-Based Analysis of the Seasonal Variability of Surface Total Alkalinity on the East China Sea Shelf. Front. Mar. Sci. 7:219. doi: 10.3389/fmars.2020.00219
  • Ge, J.*, Torres, R., Chen, C., Liu, J., Xu, Y., Bellerby, R., et al. (2020). Influence of suspended sediment front on nutrients and phytoplankton dynamics off the Changjiang Estuary: A FVCOM-ERSEM coupled model experiment. Journal of Marine Systems, 204, 103292–19. http://doi.org/10.1016/j.jmarsys.2019.103292
  • Ge, J.*, Shi, S., Liu, J., Xu, Y., Chen, C., Bellerby, R., & Ding, P. (2020). Interannual Variabilities of Nutrients and Phytoplankton off the Changjiang Estuary in Response to Changing River Inputs. Journal of Geophysical Research-Oceans, 125(3), 197–23. http://doi.org/10.1029/2019JC015595
  • Ge, J.*, Chen, C., Wang, Z. B., Ke, K., Yi, J., & Ding, P. (2020). Dynamic Response of the Fluid Mud to a Tropical Storm. Journal of Geophysical Research-Oceans, 125(3), 1–27. http://doi.org/10.1029/2019JC015419
  • Wang, S., Ge, J., Kilbourne, K. H., & Wang, Z.* (2020). Numerical simulation of mid-Holocene tidal regime and storm-tide inundation in the south Yangtze coastal plain, East China. Marine Geology, 423, 106134. http://doi.org/10.1016/j.margeo.2020.106134
  • Zhou, Z., Ge, J.*, Wang, Z. B., Maren, D. S., Ma, J., & Ding, P. (2019). Study of Lateral Flow in a Stratified Tidal Channel‐Shoal System: The Importance of Intratidal Salinity Variation. Journal of Geophysical Research-Oceans, 124(9), 6702–6719. http://doi.org/10.1029/2019JC015307
  • 陈建忠,葛建忠*,BELLERBY Richard.东海中部浮游生态系统季节变化的数值模拟[J].华东师范大学学报(自然科学版),2019(06):153-168.
  • 朱绳祖,张国安*,张卫国,李茂田,葛建忠.近期长江口崇明岛周边岸滩沉积特征及影响机制[J].长江流域资源与环境,2019,28(10):2441-2451.
  • Ge, J.*, Zhou, Z., Yang, W., Ding, P., Chen, C., Wang, Z. B., & Gu, J. (2018). Formation of Concentrated Benthic Suspension in a Time-Dependent Salt Wedge Estuary. Journal of Geophysical Research-Oceans, 123(11), 8581–8607. http://doi.org/10.1029/2018JC013876
  • 柯科腾,葛建忠*,丁平兴.长江口北槽近底高质量浓度泥沙形成关键机制分析[J].海洋科学进展,2018,36(04):560-569.
  • 栾华龙,柯科腾,葛建忠*,陈炼钢,杨万伦,丁平兴.长江口规划工程影响下的咸潮入侵数值模拟[J].海洋科学进展,2018,36(04):525-539.
  • 道付海,栾华龙,杨万伦,丁平兴*,葛建忠.长江河口南北槽分流口工程及瑞丰沙地形变化对分流比的影响[J].华东师范大学学报(自然科学版),2018(03):170-183.
  • 杨万伦,道付海,栾华龙,葛建忠,丁平兴*.长江口洪季南北槽落潮分流分沙比观测研究[J].华东师范大学学报(自然科学版),2018(02):170-180.
  • Lu, Z., Fan, W., Li, S.*, & Ge, J. (2018). Large-eddy simulation of the influence of a wavy lower boundary on the turbulence kinetic energy budget redistribution. Journal of Oceanology and Limnology, 36(4), 1178–1188. http://doi.org/10.1007/s00343-018-7015-y
  • Guo, W., Wang, X. H., Ding, P.*, Ge, J., & Song, D. (2018). A system shift in tidal choking due to the construction of Yangshan Harbour, Shanghai, China. Estuarine, Coastal and Shelf Science, 206, 49–60. http://doi.org/10.1016/j.ecss.2017.03.017
  • Dong, S., Stephenson, W. J.*, Wakes, S., Chen, Z., & Ge, J. (2017). Meso-scale Simulation of Typhoon Generated Storm Surge: Methodology and Shanghai Case Study. Natural Hazards and Earth System Sciences Discussions, 1–18. http://doi.org/10.5194/nhess-2017-34
  • Luan, H. L., Ding, P.-X.*, Wang, Z. B., & Ge, J.-Z. (2017). Process-based morphodynamic modeling of the Yangtze Estuary at a decadal timescale_ Controls on estuarine evolution and future trends. Geomorphology, 290, 347–364. http://doi.org/10.1016/j.geomorph.2017.04.016
  • 付元冲,丁平兴*,葛建忠,宗海波.长江河口沿海区域温带风暴潮预报模式的建立与应用[J].华东师范大学学报(自然科学版),2017(02):116-125.
  • Luan, H. L., Ding, P.-X.*, Wang, Z. B., Ge, J.-Z., & Yang, S.-L. (2016). Decadal morphological evolution of the Yangtze Estuary in response to river input changes and estuarine engineering projects. Geomorphology, 265(C), 12–23. http://doi.org/10.1016/j.geomorph.2016.04.022
  • Guo, W., Song, D., Wang, X. H., Ding, P.*, & Ge, J. (2016). Contributions of different tidal interactions to fortnightly variation in tidal duration asymmetry. Journal of Geophysical Research-Oceans, 121(8), 5980–5994. http://doi.org/10.1002/2016JC011689
  • 陶英佳,葛建忠,丁平兴*.长江口咸潮入侵预报系统的设计与应用[J].华东师范大学学报(自然科学版),2016(02):128-143.
  • 许鹏,葛建忠,丁平兴*,付桂.长江口深水航道工程南导堤越堤通量时空变化数值研究[J].华东师范大学学报(自然科学版),2016(02):112-127.
  • Ge, J.*, Shen, F., Guo, W., Chen, C., & Ding, P. (2015). Estimation of critical shear stress for erosion in the Changjiang Estuary: A synergy research of observation, GOCIsensing and modeling. Journal of Geophysical Research-Oceans, 120(12), 8439–8465. http://doi.org/10.1002/2015JC010992
  • Ge, J.-Z.*, Ding, P.-X., Li, C., Fan, Z.-Y., Shen, F., & Kong, Y.-Z. (2015). Estimation of sediment transport with an in-situ acoustic retrieval algorithm in the high-turbidity Changjiang Estuary, China. China Ocean Engineering, 29(6), 903–915. http://doi.org/10.1007/s13344-015-0063-6
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