杨海飞

· Tian, M., Qiao, H.J., Wu, H.*, Finotello, A., Yang, S.L., Xu, X.Z., Wang, L., Niu, Y.H., Zhang, W.X., Yang, H.F.*, 2026. Transformation of the depocenter in the Yangtze Estuary under fluvial sediment changes and human intervention. Estuarine, Coastal and Shelf Science, 336, 109876.
· Shi, B.W.1, Chen, X.Y.1, Cooper, J.R., Pratolongo, P.D., Yang, S.L., Wu, G.X., Zuo, L.Q., Li, X.Z., Wang, Y.P., Yang, H.F.*, 2026. Overlooked but widespread severe coastal erosion prior to typhoon landfall. Communications Earth & Environment, 7, 240. https://doi.org/10.1038/s43247-026-03287-4.
· Yang, H.F., Tian, M., Yang, S.L.*, Shi, B.W., Chen, C.P., Wang, H.J., 2025. Episodic reservoir flooding transforming sediment sinks to sources and the potential global implications. Communications Earth & Environment, 6, 658. https://doi.org/10.1038/s43247-025-02666-7.
· Yang, H.F.*, Wang, L., Xu, K.H., Zhang, W.X., Shi, B.W., Yang, S.L., Wang, Y.P.*, 2025. Deltaic engineering-induced accumulation hides erosion in response to fluvial sediment decline in the Yangtze submarine shoal. Limnology and Oceanography Letters, 10, 527-535. doi: 10.1002/lol2.70018.
· Xu, Y.1, Yang, H.F.1*, Qiao, H.J., Hu, C.Y., Peng, B.B., Zhu, Z.C., Wang, Y.P.*, 2025. Sediment dynamics and vegetation resilience: A case study on the tidal flats in the Yangtze Delta. Applied Ocean Research, 154, 104399.
· Tian, M., Yang, H.F.*, Zhang, W.X., Xu, K.H., Shi, B.W., Wang, Y.P., Yang, S.L.*, 2024. Sediment resuspension and transport in the offshore subaqueous Yangtze Delta during winter storms. Frontiers in Marine Science, 11, 1420559.
· Chen, S.X., Yang, H.F.*, Li, M.L., Xing, F., Shi, B.W., Wang, Y.P., 2024. Sediment dynamic on the tidal flat sheltered by artificial engineering: A case study on eddies. Estuarine, Coastal and Shelf Science, 304, 108829.
· Yang, H.F., Zhu, Q.Y., Liu, J.A., Zhang, Z.L., Yang, S.L., Shi, B.W., Zhang, W.X., Wang, Y.P., 2023. Historic changes in nutrient fluxes from the Yangtze River to the sea: Recent response to catchment regulation and potential linkage to maritime red tides. Journal of Hydrology, 617, 129024.
· Yang, H.F., Li, B.C., Yang, S.L., …… Wang, Y.P.*, 2022. Impacts of large projects on the sediment dynamics and evolution of the Hengsha Shoal in the Yangtze Delta. Ocean Engineering, 261, 112030.
· Yang, H.F., Yang, S.L., Li, B.C., Wang, Y.P., Wang, J.Z., Zhang, Z.L. et al., 2021. Different survival potentials between the Yangtze and Mississippi deltaic wetlands under riverine sediment decline and sea-level rise. Geomorphology, 381, 107646. doi: 10.1016/j.geomorph.2021.107646.
· Yang, H.F., Yang, S.L., Xu, K.H., Milliman, J.D., Wang, H., Yang, Z., Chen, Z. Zhang, C. Y., 2018. Human impacts on sediment in the Yangtze River: A review and new perspectives. Global and Planetary Change, 162, 8-17. ESI高被引论文.
· Yang, H.F., Yang, S.L., Xu, K.H., 2017. River-sea transitions of sediment dynamics: A case study of the tide-impacted Yangtze River estuary. Estuarine, Coastal and Shelf Science, 196, 207-216.
· Yang, H.F., Yang, S.L., Xu, K.H., Wu, H., Shi, B. W., Zhu, Q., Zhang, W.X., Yang, Z., 2017. Erosion potential of the Yangtze Delta under sediment starvation and climate change. Scientific Reports, 7: 10535, doi: 10.1038/s41598-017-10958-y.
· Yang, H.F., Yang, S.L., Meng, Y., Xu, K.H., Luo, X.X., Wu, C.S., Shi, B.W., 2018. Recent coarsening of sediments on the southern Yangtze subaqueous delta front: A response to river damming. Continental Shelf Research, 155, 45-51.
· Huang, Y.G.1, Yang, H.F.1, et al., 2022. Declines in suspended sediment concentration and their geomorphological and biological impacts in the Yangtze River Estuary and adjacent sea. Estuarine, Coastal and Shelf Science, 265, 107708. (共同一作)
· Huang, Y.G.1, Yang, H.F.1, Yang, S.L.*, Shi, B.W., Wu, Q.Y., 2021. Decadal Decreases of Suspended Sediment Concentrations within the Yangtze River Estuary: A Response to Human Impacts. Journal of Coastal Research, 37, 852-863. (共同一作)
· Yang, S.L., Yang, H.F., 2015. Temporal variations in water and sediment discharge from the Changjiang (Yangtze River) and downstream sedimentary responses. Ecological Continuum from the Changjiang (Yangtze River) Watersheds to the East China Sea Continental Margin (pp. 71-91). Springer International Publishing.
· Yang, S.L., Xu, K.H., Milliman, J.D., Yang, H.F., Wu, C.S., 2015. Decline of Yangtze River water and sediment discharge: Impact from natural and anthropogenic changes. Scientific Reports, 5: 12581, doi: 10.1038/srep12581. ESI高被引论文.
· 杨海飞,张鹏,2019.新水沙形势下长江口悬沙浓度的时空分布研究.人民长江.50,37-41.
· 朱巧云,杨海飞*等,2021.径潮流变化对长江潮流界位置的影响研究.海洋通报.40(5),502-511.
