招生专业

物理海洋学

 

学科专业：物理海洋学， 河口海岸学

 

一、工作经历：

1986-1993年   南京大学学士、硕士。

1994-1997年   华东师范大学博士。

1993-2003年   海南省海洋开发规划设计研究院从事海岸动力地貌与沉积学领域的应用开发。

2000.10-2001.10年   英国利物浦大学土木工程系（Department of Civil Engineering, the University of Liverpool）访问学者，主要从事海岸动力、泥沙运动与长周期地形演变的数值模拟研究。

2003-2008年   美国弗吉利亚海洋研究所(VIMS)从事河口动力与物质输运研究。

2008年回国进入中山大学海洋学院工作。负责国家自然科学面上基金项目三项，国家自然科学基金国际合作基金二项，参加多项。

  

二、教学与人才培养:

 

本科生课程：物理海洋学

研究生课程：高等河口动力学（与袁丽蓉副教授合上）

研究生课程：高级物理海洋学

 

已毕业的博士生：

谭超；赵军鹏；李昌宇；杨留柱；林中源；陈亮鸿；黄伟昊；李锐祥；张光；张睿

在读博士生：

徐天平；张秀杰；王嘉希; 胡苏安; 胡鹏鹏；谢全

已毕业的硕士生：

黄宝霞；朱家兴；程高磊；吴志辉；丘茜茜；程伟聪；刘帅帅；陈俞任；李少权；黄震宇

在读硕士生：

刘玮琦；朱修全

 

 三、科研成果：

近年来承担的主要研究项目有：

• 《喇叭形弱潮河口的泥沙输运及其机制研究-以珠江口黄茅海为例》，面上基金，基金号为41576089，时间为2016.1.1-2018.12.31。负责

• 《热带中小河口羽状流的行为与动力特征——以海南博螯万泉河口为例》，面上基金，基金号40976052，时间2010.1.1-2012.12.31。负责

• 《珠江河口湾最大浑浊带的三维动力学研究》，国际合作基金，基金号41061130542，时间2011.1.1-2014.12.31。负责

• 《海南岛南渡江河口的盐水入侵及对人类活动的响应 》，地区基金，基金号40866001。主要参加人员

• 国家重点研发计划《多维时空尺度动力-泥沙-地貌过程模拟研究及长周期演变预测》。主要参加人员

• 珠江口伶仃洋侧向河口来水来沙的输运与归宿；广东省重点基金，基金号2014A030311046，2014-2017。负责

• 珠江口咸潮上溯的动力机制及其对气候变化与人类活动的响应研究。中-荷-英国际合作项目，基金号51761135021，2017.6-2021.12，负责。

• 变化环境下广东海岸侵蚀风险评估及海堤防护对策研究。广东省水利科技创新项目，2017.7-2020.7。负责。

• 珠江河口羽流作用下的沉积物输运过程与归宿研究。面上基金，基金号42276169，时间2023.1-2026.12。负责。

近年来的主要文章有：

2024:

1. Lin, Z., Zhang, G., Zou, H., Gong, W.*,2024. Salt intrusion dynamics in a well-mixed sub-estuary connected to a partially to well-mixed main estuary. Ocean Science 20(1), 181-199.https://doi.org/10.5194/os-20-181-2024.

2. Hu, S., Li, Y., Yu, X., Gong, W.*, 2024. Seasonal variations of coastal trapped waves (CTWs)' propagation in the South China Sea. Estuarine, Coastal and Shelf Science. https://doi.org/10.1016/j.ecss.2024.108780

3. Xie, Q., Gui, D.*, Wang, W., Zhang, Y., Zhang, H., Yuan, L.*, Gong, W., 2024. Predictable oceanographic processes drive the formation of a distribution hotspot for Indo-Pacific humpback dolphins at a manmade harbor.  Ocean and Coastal Management. 107160.

4.  Zhang, X., Yu, X.*, Ponte, A.L., Gong, W., 2024. Effects of balanced motions and unbalanced internal waves on steric height in the mid-latitude ocean. Geophysical Research Letters

5. Zhu, L., Zhang, G., Zhang, H., Gong, W., Li, S*., 2024. Estimation of vertical transport timescales of sediment in the Changjiang Estuary and its adjacent regions. Journal of Hydrology 637, 131326.

6. Hu, S., Li, Y., Hu, P., Zhang, H., Zhang,G., Gong, W*., 2024. The impacts of far‐field typhoon‐generated coastal trapped waves on the hydrodynamics in the northern South China Sea: A case study of Typhoon In‐fa. Journal of Geophysical Research: Oceans, 129, e2024JC021359.

2023:

1. Gong, W., Wang, J., Zhang, G., Zhu, L.*, 2023. Effect of axial winds and waves on sediment dynamics in an idealized convergent partially mixed estuary. Marine Geology 458, 107015.

2. Gong, W., Wang, J.*, Zhao, J., Zhang, H., 2023. Contrast of fine sediment dynamics between shoals and channel in a microtidal estuary with mixed semi-diurnal tides. 2023. Anthropocene Coast.

2022:

1. Gong, W., Lin, Z.*, Zhang, H., Lin, H., 2022. The response of salt intrusion to changes in river discharge, tidal range, and winds, based on wavelet analysis in the Modaomen estuary, China. Ocean and Coast Management 219, 106060.

2. Zhang, R., Hong, B., Zhu, L., Gong, W.*, Zhang, H., 2022.  Responses of estuarine circulation to the morphological evolution in a convergent, microtidal estuary. Ocean Sci., 18, 213–231, https://doi.org/10.5194/os-18-213-2022.

3. Gong, W., Zhang, G., Yuan, L., Zhu, L., Zhang, H.*, 2022. Effects of swell waves on the dynamics of the estuarine turbidity maximum in an idealized convergent partially mixed estuary. Journal of Marine Systems.

4. Gong, W., Zhang, G., Zhang, H., Yu, X.L., Zhu, L., Li, S.*, 2022. The effects of mouth bar on salt intrusion in a partially mixed estuary. Journal of Hydrology 612, 128261.

5. Wang, J., Hong, B., Gong, W.*, 2022. Study of an abnormally strong saltwater intrusion in the Humen Channel of the Pearl River estuary. Anthropocene Coasts.

6. Payo-Payo, M., Bricheno, L. M., Dijkstra, Y. M., Cheng, W., Gong, W.,  Amoudry, L. O., 2022. Multiscale temporal response of salt intrusion to transient river and ocean forcing. Journal of Geophysical Research: Oceans, 127, e2021JC017523. https://doi. org/10.1029/2021JC017523

2021:

1. Gong, W., Zhang, G., Yuan, L., Zhang,H., & Zhu, L. , 2021. Effect of the Coriolis force on salt dynamics in convergent partially mixed estuaries. Journal of Geophysical Research: Oceans, 126, e2021JC017391. https://doi. org/10.1029/2021JC017391.

2. Li, R., Chen, C., Dong, W., Beardsley, R.C., Wu, Z., Gong, W., Liu, Y., Liu, T., Xu, D., 2021. Slope-intensified storm-induced near-inertial oscillations in the South China Sea. Journal of Geophysical Research: Oceans. https://doi.org/10.1029/2020JC016713

3. Huang, W., Gong*, W., Zhang,H., Jia, Z., Huang, Z., Zhu, L., Liu, J., 2021. Stochasticity in the estuarine sediment erosion processes. Continental Shelf Research.

4. Zhu, L., Gong, W., Zhang, H., Yuan*, L., 2021. Determining the subtidal flow by using novel repeated measurements at a stratified tidal junction. Applied Ocean Research.

5. Zhang, H., Hu, S., Cheng, W., Zhu, L.*, Chen, Y., Liu, J., Gong, W., Li, Y., Li, S.,2021. Response of freshwater transport during typhoons with wave-induced mixing effects in the Pearl River Estuary, China. Estuarine, Coastal and Shelf Science.

6. Zhang, G., Chen, Y., Cheng, W., Zhang, H.,  Gong*, W.，2021. Wave effects on sediment transport and entrapment in a channel-shoal estuary: The Pearl River Estuary in the dry winter season. Journal of Geophysical Research: Oceans, 126, e2020JC016905. https:// doi.org/10.1029/2020JC016905

7. Lee, J., Liu, J.T., Lee, I., Fu, K.-H., Yang, R.J., Gong, W., Gan, J., 2021. Encountering shoaling internal waves on the dispersal pathway of the Pearl River plume in summer. Scientific reports.https://doi.org/10.1038/s41598-020-80215-2

2020:

1. Zhu, L., Zhang, H., Guo, L., Huang, W., Gong, W.*, 2020. Estimation of riverine sediment fate and transport timescales in a wide estuary with multiple sources. Journal of Marine Systems. 

2. Chen, Lianghong, Gong, Wenping*, Zhang, Heng, Zhu, Lei, Cheng, Weicong, 2020. Lateral circulation and associated sediment transport in a convergent estuary. Journal of Geophysical Research: Oceans, 125, e2019JC015926. https://doi.org/ 10.1029/2019JC015926

3. Zhu, Lei, Gong, Wenping*, Zhang, Heng, Huang, Weihao, Zhang, Rui, 2020. Numerical study of sediment transport time scales in an ebb-dominated waterway. Journal of Hydrology 591, 125299.

4. Chen Lianghong, Wenping Gong*, Scully Malcom, Heng Zhang, Weicong Cheng, Wei Li, 2020.  Axial Wind Effects on Stratification and Longitudinal Sediment Transport in a Convergent Estuary During Wet Season. Journal of Geophysical Research: Oceans. doi: 10.1029/2019JC015254.

5. Wenping Gong, Lianghong Chen, Heng Zhang, Lirong Yuan, Zhaoyun Chen*, 2020. Plume Dynamics of a Lateral River Tributary Influenced by River Discharge From the Estuary Head. Journal of Geophysical Research: Oceans. doi: 10.1029/2019JC015580.

6.Weihao Huang, Heng Zhang, Lei Zhu, Lianghong Chen, Guang Zhang, Wenping Gong*, Jiahuan Liu, 2020. In-situ study of the spatiotemporal variability of sediment erodibility in a microtidal estuary. Estuarine, Coastal and Shelf Science 232, 106530.

2019:

1. Zhaoyun Chen, Yuwu Jiang, Jia Wang, Wenping Gong*, 2019. Influence of a river plume on coastal upwelling dynamics: importance of stratification. Journal of Physical Oceanography 49(9), 2345-2363.

2. Rui Zhang, Lianghong Chen, Shuaishuai Liu, Heng Zhang, Wenping Gong*, Guoyao Lin, 2019. Shoreline evolution in an embayed beach adjacent to tidal inlet: the impact of anthropogenic activities. Geomorphology 346, 106856.

3. Guang Zhang, Weicong Cheng, Lianghong Chen, Heng Zhang, Wenping Gong*, 2019. Transport of riverine sediment from different outlets in the Pearl River Estuary during the wet season. Marine Geology 415, 105957.

4. Yuren Chen, Lianghong Chen, Heng Zhang*, Wenping Gong*, 2019.Effects of wave-current interaction on the Pearl River Estuary during Typhoon Hato. Estuarine, Coastal and Shelf Science 228, 106364.

5. Yuren Chen, Weicong Cheng, Heng Zhang*, Jiawei Qiao, Jiahuan Liu, Zhen Shi, Wenping Gong, 2019. Evaluation of the total maximum allocated load of dissolved inorganic nitrogen using a watershed-coastal ocean coupled model. Science of the Total Environment 673, 734-749.

6. Wenping Gong, Lianghong Chen, Zhaoyun Chen, Heng Zhang*, 2019. Plume-to-plume interactions in the Pearl River Delta in winter. Ocean and Coastal Management 175, 110-126.

7. Zhongyuan Lin, Heng Zhang, Hongyang Lin, Wenping Gong*, 2019. Intraseasonal and interannual variabilities of saltwater intrusion during dry seasons and the associated driving forcings in a partially mixed estuary. Continental Shelf Research 174, 95-107.

8. Heng Zhang, Weicong Cheng, Yuren Chen, Zhen Shi, Wenping Gong*, Shuaishuai Liu, 2019. Importance of large-scale coastal circulation on bay-shelf exchange and residence time in a subtropical embayment, the northern South China Sea. Ocean and Coastal Management 168, 72-89.

9. Liuzhu Yang, Feng Liu, Wenping Gong, Huangyang Cai, Fenghua Yu, Hongzhou Pan, 2019. Morphogical response of Lingding Bay in the Pearl River estuary to human intervention in recent decades. Ocean and Coastal Management 176, 1-10.

10. Bo Hong, Zhonghui Liu, Jian Shen, Hui Wu, Wenping Gong, Hongzhou Xu, Dongxiao Wang, 2019. Potential physical impacts of sea-level rise on the Pearl River estuary, China. Journal of Marine Systems 201, 103245.

2018:

1. Zhen Li, Vera Pospelova, Hui-Ling Lin, Lejun Liu, Bing Song, Wenping Gong, 2018. Seasonal dinoflagellate cyst production and terrestrial palynomorph deposition in the East Asian monsoon influenced South China Sea: A sediment trap study from the southwest Taiwan waters. Review of Palaeobotany and Palynology 257, 117-139.

2. Wenping Gong, Zhongyuan Lin, Yunzhen Chen, Zhaoyun Chen*, Jianshen, Heng Zhang*, 2018. Effect of waves on the dispersal of the Pearl River plume in winter. Journal of Marine Systems 186, 47-67.

3.Heng Zhang, Weicong Cheng, Yuren Chen, Liuqian Yuu, Wenpng Gong*, 2018. Controls of the interannual variability of hypoxia in a subtropical embayment and its adjacent waters in the Guangdong coastal upwelling system, northern South China Sea. Ocean Dynamics doi.org/10/1007/s10236-018-1168-2.

4.Wenping Gong, Yunzhen Chen, Heng Zhan, Zhaoyun Chen*, 2018.Effects of wave-current interaction on salt intrusion during a typhoon event in a highly stratified estuary. Estuaries and Coasts. doi:10.1007/s12237-018-0393-8.  

5. Wenping Gong, Zhongyuan Lin, Yunzhen Chen, Zhaoyun Chen, Heng Zhang*, 2018. Effect of winds and  waves on salt intrusion in the Pearl River estuary. Ocean Science 14, 139-159.

2017:

1.Chen, Zhaoyun, Yuwu Jiang, James T. Liu, and Wenping Gong* .2017. Development of upwelling on pathway and freshwater transport of Pearl River plume in northeastern South China Sea, Journal of Geophysical Research: Oceans 122, doi:10.1002/ 2016JC012411.

2.Zhaoyun Chen, Wenping Gong, Huayang Cai, Yunzhen Chen, Heng Zhang*, 2017.  Dispersal of the Pearl River plume over continental shelf in summer. Estuarine, Coastal and Shelf Science 194,252-262.

3.Junpeng Zhao, Wenping Gong*, Jian Shen, 2017. The effect of wind on the dispersal of a tropical small river plume. Frontiers of Earth Science, 1-21, Doi:10.1007/s11707-016-0628-6

4.Heng Zhang, Weicong Cheng, Xixi Qiu, Xiangbo Feng, Wenping Gong*, 2017. Tide-surge interaction along the east coast of the Leizhou Peninsula, South China Sea. Continental Shelf Research, 142, 32-49.

2016:

1.Changyu Li, Henk M. Schuttelaars, Pieter C. Roos, Johan H. Damveld, Wenping Gong, Suzanne J.M.H. Hulscher, 2016. Influence of retention basins on tidal dynamics in estuaries: Application to the Ems estuary. Ocean & Coastal Management, 134, 216-225.

2.Wenping Gong, Henk Schuttelaars, Heng Zhang, 2016. Tidal asymmetry in a funnel-shaped estuary with mixed semidiurnal tide. Ocean Dynamics, 66, 637-658.

2014:

1.Wenping Gong , Jerome P.Y. Maa, Bo Hong, Jian Shen, 2014. Salt transport during a dry season in the ModaomenEstuary, Pearl River Delta, China. Ocean & Coastal Management, 100, 139-150.

2.WenpingGong*, Liangwen Jia, Jian Shen, JamesT.Liu, 2014. Sediment transport in response to changes in river discharge and tidal mixing in a funnel-shaped micro-tidal estuary. Continental Shelf Research, 76, 89–107.

2013:

1.Wenping Gong, Jian Shen, Liangwen Jia, 2013. Salt intrusion during the dry season in the Huangmaohai Estuary, Pearl River Delta, China. Journal of Marine Systems, 111, 235–252.

2012:

1.Wenping Gong, Wang, Yaping, Jia, Jianjun, 2012. The effect of interacting downstream branches on saltwater intrusion in the Modaomen Estuary, China. Journal of Asian Earth Sciences, 45, 223-238.

2011:

1. Wenping Gong*, Shen Jian, 2011. The response of salt intrusion to changes in river discharge and tidal mixing during the dry season in the Modaomen Estuary, China. Continental Shelf Research, 31, 769–788.

2010:

1.Hong Bo, Panday Nauth, Shen Jian, Wang Harry V., Wenping Gong, Soehl Anna, 2010. Modeling water exchange between Baltimore Harbor and Chesapeake Bay usingartificial tracers: Seasonal variations. Marine Environmental Research, 70, 102-119.

2. Wenping Gong*, Shen Jian, 2010. A model diagnostic study of age of river-borne sediment transport in the tidal York River Estuary. Environmental Fluid Mechanics, Doi:10.1007/s10652-009-9144-5.

2009:

1. Wenping Gong*, Shen Jian, 2009. Response of sediment dynamics in the York River Estuary to Tropical Cyclone Isabel, 2003. Estuarine, Coastal and Shelf Science, 84(1), 61-74.

2. Wenping Gong*, Shen Jian, Hong Bo, 2009. The influence of wind on the water age in the tidal Rappahannock River. Marine Environmental Research, 66(4), 203-216.

3.Shen Jian and  Wenping Gong*, 2009. Influences of model domain size, wind direction and Ekman transport on storm surge development inside the Chesapeake Bay: a case study of extratropical cyclone Ernesto,2006. Journal of Marine Systems, 75(1-2), 198-215.

4.Wenping Gong*, Shen Jian, Cho Kyoung- Ho, Wang Harry, 2009. A numerical model study of barotropic subtidal water exchange between estuary and subestuaries (tributaries) in the Chesapeake Bay during northeaster events. Ocean Modelling, 26(3-4), 170-189.