工作单位：海洋工程与技术学院
专业资格：副教授，硕士生导师
行政职务：无
电子邮箱：liuf53@mail.sysu.edu.cn
研究方向：河口海岸过程与工程
招生专业：物理海洋学（河口海岸）、土木水利
近期科学研究兴趣主要聚焦高强度人类活动驱动下大河三角洲演变转型过程与机制、河口细颗粒泥沙输移规律与机制、生物（生态）地貌过程与机制、海域海岛整治与生态修复等方向，欢迎对上述研究感兴趣的同学报考。
个人详细信息介绍
一、主要经历
教育经历：
2009.09-2012.06，华东师范大学河口海岸学国家重点实验室，博士
2007.09-2009.06，中山大学河口海岸研究所，硕士
工作经历：
2020.03至今 中山大学海洋工程与技术学院，副教授
2015.09至2020.02 中山大学海洋科学学院、海洋工程与技术学院，副研究员
2012.07至2015.09 中山大学海洋科学学院，博士后
社会兼职：
担任Environmental Pollution, Science of the Total Environment, Journal of Hydrology, Scientific Reports, Hydrological Processes, Catena、Earth Surface Processes and Landforms、Journal of Cleaner Production等十多个国际SCI权威期刊审稿专家，并被Catena，International Journal of Sediment Research等期刊评为“杰出审稿人”；
国家自然科学基金项目评审专家；
中国海洋学会/中国海洋与湖沼学海岸河口分会理事.
二、人才培养与任课情况
招生专业和数量：
每年招收物理海洋学（河口海岸）、土木水利等方向硕士研究生1-2名。
任课情况：
本科教学：海岸动力地貌学、港口航道工程
研究生教学：工程海岸学
三、科研项目
1. 纵向项目：
[1] 国家自然科学基金面上项目，珠江磨刀门河波型河口拦门沙形态演化与系统转换机制，**，2021.01-2024.12，主持；
[2] 国家自然科学基金青年基金项目，珠江磨刀门河波型河口细颗粒泥沙絮凝动力机制，**，2018.01-2020.12，主持；
[3] 国家重点研发项目子课题，基于长序列及多要素原型观测的水沙异变研究，2016YFC**，2017.07-2020.12，子课题主持（课题第一参与人）；
[4] 广东省自然科学基金，珠江磨刀门河口细颗粒泥沙絮凝波流湍控机制研究，2017A，2017.05-2020.05，主持；
[5] 广东省水利科技创新项目，珠江河口围填海工程环境累积效应及调控技术研究，2016-21，2016.04-2019.03，主持；
[6] 高校基本科研业务费青年教师培育项目，伶仃洋河口湾沉积物磁学参数的沉积环境指示意义研究，18lgpy29，2018.01-2020.12，主持；
[7] 中国博士后自然科学基金面上项目，珠江磨刀门河口波流共同作用下泥沙输运研究，2013M531890，2013.05-2015.06，主持；
[8] 河口海岸学国家重点实验室开放课题，磨刀门河口拦门沙区域泥沙输运及其沉积地貌效应，SKLEC-KF201409, 2014.08-2016.07，主持；
2. 产学研项目：
[1] 企事业单位委托，珠江河口水文泥沙测验与分析，2020.11-2021.11，主持；
[2] 企事业单位委托，中委合资广东石化2000万吨/年重油加工工程产品码头工程岸滩演变分析，2019.01-2020.12，主持；
[3] 企事业单位委托，广东省汕尾市品清湖动力沉积地貌本底数据调查与沙坝整治研究，2018.01-2019.12，主持；
四、学术论文及专利
1.以第一/通讯作者（*）代表性论文：
[1] Cai, H., Zhang, P., Garel, E., Matte, P., Hu, S.,Liu, F.*, Yang, Q.. A novel approach for the assessment of morphological evolution based on observed water levels in tide-dominated estuaries, Hydrology and Earth System Sciences, 2020, 24, 1871–1889.
[2]Chu, N., Yang, Q., Liu, F.*, Luo, X., Cai, H., Yuan, L., Huang, J., Li, J.. Distribution of magnetic properties of surface sediment and its implications on sediment provenance and transport in Pearl River Estuary. Marine Geology, 2020, 424, 106162.
[3]Liu, F., Xie, R.Y., Luo, X.X., Yang, L.Z., Cai, H.Y.*, Yang, Q.S.. Stepwise adjustment of deltaic channels in response to human interventions and its hydrological implications for sustainable water managements in the Pearl River Delta, China. Journal of Hydrology, 2019, 573, 194-206.
[4] Cai, H.Y., Savenije, H.H.G., Garel, E. Zhang, X.Y, Guo, L.C., Zhang, M., Liu, F.*, Yang Q.S. Seasonal behaviour of tidal damping and residual water level slope in the Yangtze River estuary: identifying the critical position and river discharge for maximum tidal damping, Hydrology and Earth System Sciences, 2019, 23, 2779-2794.
[5] Yang, L.Z., Liu, F.*, Gong, W.P., Cai, H.Y., Yu, F.H., Pan, H.Z.. Morphological response of Lingding Bay in the Pearl River Estuary to human intervention in recent decades. Ocean &Coastal Management, 2019, 176, 1-10.
[6] Liu, F., Hu, S., Guo, X., Niu, L., Cai, H.*,Yang, Q.. Impacts of estuarine mixing on vertical dispersion of polycyclic aromatic hydrocarbons (PAHs) in a tide-dominated estuary. Marine Pollution Bulletin, 2018, 131,276-283.
[7] Cai, H., Piccolroaz, S., Huang, J., Liu,Z., Liu, F.*, Toffolon, M.. Quantifying the impact of the Three Gorges Dam on the thermal dynamics of the Yangtze River, Environmental Research Letters, 2018, https://doi.org/10.1088/1748-9326/aab9e0.
[8] Liu, F. , Chen, H., Cai, H., Luo, X., Ou, S.Y.*, Yang, Q.. Impacts of ENSO on multi-scale variations in sediment discharge from the Pearl River to the South China Sea. Geomorphology,2017,293, 24-36.
[9] Liu, F., Niu, L.*, Chen, H., Li, P., Tian, F., Yang, Q.. Seasonal changes of polycyclic aromatic hydrocarbons in response to hydrology and anthropogenic activities in the Pearl River estuary, China. Marine Pollution Bulletin, 2017, 117, 255-263.
[10] Tan, C., Huang, B., Liu, F.*, Yang, Q., Jiang, C., Zhang, S.. Transformation of the three largest Chinese river deltas in response to the reduction of sediment discharges. Journal of Coastal Research, 2016, 32(6), 1402-1416.
[11] Liu, F., Yang, Q.S.*, Hu, Y.J., Du, H.H., Yuan, F.. Distribution and transportation of polycyclic aromatic hydrocarbons (PAHs) at the Humen river mouth in the Pearl River delta and their influencing factors. Marine Pollution Bulletin, 2014, 84,401-410.
[12] Liu, F., Yuan, L.R., Yang, Q.S.*,Ou, S.Y., Xie, L.L., Cui X.. Hydrological responses to the combined influence of diverse human activities in the Pearl River delta, China. Catena, 2014,113, 41-55.
2.代表性合作论文：
[1] Wang, H., Zhang, P., Hu, S., Cai, H.*, Fu, L., Liu, F., Yang, Q..Tidal regime shift in Lingdingyang Bay, the Pearl River Delta: an identification and assessment of driving factors, Hydrological Processes,2020, doi: 10.1002/hyp.13773.
[2] Yang, H., Zhang, X., Cai, H.*, Hu, Q., Liu, F., Yang, Q.. Seasonal changes in river-tide dynamics in a highly human-modified estuary: Modaomen Estuary case study,Marine Geology,2020, 427, 106273.
[3] Yuan, X.Q., Yang, Q.S., Luo, X.X., Yu, F.L., Liu, F., Li, J.Y., Wang, Z.H.*. Distribution of grain size and organic elemental composition of the surficial sediments in Lingding Bay in the Pearl River Delta, China: A record of recent human activity. Ocean and Coastal Management, 2019,178, 104849.
[4] Cai, H., Yang, H., Liu, J., Niu, L., Ren, L.,Liu, F., Ou, S.*, Yang, Q., Quantifying the impacts of human interventions on relative mean sea level change in the Pearl River Delta, China, Ocean and Coastal Management, 2019, 173, 52-64.
[5] Liu, Z., Chen, X., Liu, F.,Lin, K., He, Y., Cai, H.*, Joint dependence between river water temperature, air temperature, and discharge in the Yangtze River: The role of the Three Gorges Dam, Journal of Geophysical Research-Atmosphere, 2018, doi: 10.1029/2018JD029078.