梅雪菲| 河口海岸学国家重点实验室

相关文章推荐

豁达的上铺 · 一文带你了解微处理器和微控制器的区别-IC先生· 4 月前 ·

有腹肌的机器猫 · 【问题肌研究所】指引美肤养成，助阵伊肤泉祛痘 ...· 1 年前 ·

曾经爱过的松树 · 安徽合肥技师学院2023年人才招聘引进专区- ...· 1 年前 ·

逼格高的土豆 · 因为一句宣传语，傲游浏览器被索赔200万元？· 1 年前 ·

一身肌肉的打火机 · 朴槿惠_百度百科· 1 年前 ·

个人简介:

梅雪菲，主要从事流域-河口水文地貌过程研究。针对以长江为代表的大型流域-河口系统，学术工作包括：1) 探明流域大坝调控对长江中下游极端水文事件的影响机理；2) 揭示长江感潮河段沉积中心的变化过程及主控因素; 3) 量化长江口滩涂淤涨的泥沙物源及其阈值极限。迄今发表中英文期刊论文40余篇，以第一/通讯作者发表在Geophysical Research Letters、Sedimentology、Journal of Hydrology等国际SCIE论文近20篇。
欢迎港口海岸及近海工程、自然地理学专业有志同学报考或保送硕士、博士研究生！

科研项目:

主持项目：
1) 科技部科技基础资源调查专项，北部湾资源环境综合调查，2023.11-2027.10，课题负责人
2) 国家自然科学基金面上基金，长江河口新桥水道动力地貌变化及其对人类活动干扰的响应研究, 2021.01-2024.12, 主持
3) 国家自然科学基金青年基金，长江口南槽泥沙输移和地貌冲淤机制研究, 2018.01-2020.12, 主持
4) 广西省重点研发计划，北部湾河口滩涂资源可持续高效利用与预警技术，2021.04-2024.03，课题负责人
5) 上海市国际科技合作基金，中越大河三角洲转型机制及变化趋势比较研究，2019.11-2023.11，主持

参与项目：
1) 国家重点研发计划政府间国际科技创新合作重点专项，气候与非气候因素驱动的河口潮滩湿地蚀退机制及修复技术，2023.12-2026.11，主要成员
2) 国家重点研发计划政府间国际科技创新合作重点专项，中美大河河口滩涂稳定性及城市安全生态防护比较研究，2019.9-2022.12，主要成员
3) 上海市国际科技合作基金项目，中越河口红树林潮滩稳定性及绿色生态堤防比较研究， 2023.9-2026.8，主要成员
4) 国家重点研发计划“中荷（兰）政府间国际科技创新合作”重点专项，应对转型中的河口三角洲，2018.01-2021.12，主要成员
5) 国家重点研发计划，长三角典型河口湿地生态恢复与产业化技术，2017.07-2021.06，主要成员

学术论文:

1）Mei, X., Dai, Z., Du, J., Cheng, J., 2024. Three Gorges Dam enhanced organic carbon burial within the sediments of Poyang Lake, China. Catena 238, 107859.
2）Xiong, Y., Dai, Z., Long, C.Q., Liang, X.X. et al., 2024. Machine Learning-Based examination of recent mangrove forest changes in the western Irrawaddy River Delta, Southeast Asia. Catena 234, 107601.
3）Mei, X., Leonardi, N., Dai, J., Wang, J., 2023. Cellular automata to understand the prograding limit of deltaic tidal flat. Engineering Applications of computational fluid mechanics 17, 2234038.
4）Yang, J., Dai, Z., Lou, Y., Mei, X., Fagherazzi, S., 2023 Image-based machine learning for monitoring the dynamics of deltaic islands in the Atchafalaya River Delta Complex between 1991 and 2019. Journal of Hydrology 623,129814.
5）Tang, R., Dai, Z., Mei, X., Lou, Y., 2023. Joint impacts of dams and floodplain on the rainfall-induced extreme flood in the Changjiang (Yangtze) River. Journal of Hydrology 627, 130428.
6）Wang, J., Dai, Z., Mei, X., Fagherazzi, S., 2023. Large-scale sedimentary shift induced by a mega dam in deltaic flats. Sedimentology, 13168.
7）Mei, X., Dai, Z., Du, J., Darby, S., 2023. Mega dam-induced riverbed erosion exacerbates drought effects on river water surface elevation. Hydrological Processes 37, e14917.
8）Tang, R., Dai, Z., Mei, X., Zhou, X., Long, C., Cong, M., 2023. Secular trend in water discharge transport in the Lower Mekong River-delta: Effects of multiple anthropogenic stressors, rainfall, and tropical cyclones. Estuarine, Coastal and Shelf Science 281, 108217.
9）Mei, X., Dai, Z., Darby, S., Zhang, M., Cai, H., Wang, J., Wei, W., 2021. Landward shifts of the maximum accretion zone in the tidal reach of the Changjiang estuary following construction of the Three Gorges Dam. Journal of Hydrology 592, 125789.
10）Leonardi, N., Mei, X., Carnacina, I., Dai, Z., 2021. Marine sediment sustains the accretion of a mixed fluvial-tidal delta. Marine Geology 438, 106520.
11）Long, C., Dai, Z., Zhou, X., Mei, X., Cong, M., 2021. Mapping mangrove forests in the Red River Delta, Vietnam. Forest Ecology and Management 483, 118910.
12）Zhou, X., Dai, Z., Mei, X., 2020. The multi-decadal morphodynamic changes of the mouth bar in a mixed fluvial-tidal estuarine channel. Marine Geology 429, 106311.
13）Wang, J., Dai, Z., Mei, X., Fagherazzi, S., 2020. Tropical cyclones significantly alleviate mega-deltaic erosion induced by high riverine flow. Geophysical Research Letters 47, e2020GL089065.
14）Wei, W., Dai, Z., Mei, X., Gao, S., Liu, J., 2019. Multi‐decadal morpho‐sedimentary dynamics of the largest Changjiang estuarine marginal shoal: Causes and implications. Land Degradation & Development 30, 2048-2063.
15）Mei, X., Zhang, M., Dai, Z., Wei, W., Li, W., 2019. Large Addition of Freshwater to the Tidal Reaches of the Yangtze (Changjiang) River. Estuaries and Coasts 42, 625-640.
16）Pang W H, Dai Z J, Ge Z P, et al., 2019. Near-bed cross-shore suspended sediment transport over a meso-macro tidal beach under varied wave conditions. Estuarine, Coastal and Shelf Science 217, 69-80.
17）Mei, X., Dai, Z., Darby, S., Gao, S., Wang, J., Jiang, W., 2018. Modulation of extreme flood levels by impoundment significantly offset by floodplain loss downstream of the Three Gorges Dam. Geophysical Research Letters 45, 3147-3155.
18）Mei, X., Dai, Z., Wei, W., Li, W., Wang, J., Sheng, H., 2018. Secular bathymetric variations of the North Channel in the Changjiang (Yangtze) Estuary, China, 1880–2013: causes and effects. Geomorphology 303, 30-40.
19）Mei, X., Du, J., Dai, Z., Du, J., Gao, J., Wang, J., 2018. Decadal sedimentation in China’s largest freshwater lake, Poyang Lake. Geochemistry, Geophysics, Geosystems 19, 2384-2396.
20）Mei, X., Dai, Z., Tang, Z., van Gelder, P.H.A.J.M., 2018. Impacts of historical records on extreme flood variations over the conterminous United States. Journal of Flood Risk Management 11, s359-369.
21）Dai, Z., Mei, X., Stephen, E., et al., 2018. Fluvial sediment transfer in the Changjiang (Yangtze) river-estuary depositional system. Journal of Hydrology 566, 719-734.
22）Mei, X., Dai, Z., Fagherazzi, S., Chen, J., 2016. Dramatic variations in emergent wetland area in China’s largest freshwater lake, Poyang Lake. Advances in Water Resources 96, 1-10.
23）Mei, X., Dai, Z., Wei, W., Gao, J., 2016. Dams induced stage-discharge relationship variations in the upper Yangtze River basin. Hydrology Research 47, 157-170.
24）Mei, X., Dai, Z., Du, J., Chen, J., 2015. Linkage between Three Gorges Dam impacts and the dramatic recessions in China’s largest freshwater lake, Poyang Lake. Scientific Reports 5, 18197.
25）Mei, X., Dai, Z., van Gelder, P.H.A.J.M., Gao, J., 2015. Linking Three Gorges Dam and downstream hydrological regimes along the Yangtze River, China. Earth and Space Science 2(4), 94-106.