The influence of seasonal climate on the morphology of the mouth-bar in the Yangtze Estuary, China

The geomorphology of the Yangtze Estuary in the Changjiang River Delta in Eastern China has been the subject of extensive research. This study extends previous work to examine the influence of wind-waves on the mouth-bar, where about half of the river-borne material settles to the bed. The site is l...

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Bibliographic Details
Published in:Continental shelf research 2018-02, Vol.153, p.30-49
Main Authors: Zhang, Min, Townend, Ian, Cai, Huayang, He, Jiawei, Mei, Xuefei
Format: Article
Language:English
Subjects:
Bottom shear stress
Estuary geomorphology
Mouth bar
Seasonal
Wave-current interaction
Yangtze Estuary
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Summary:The geomorphology of the Yangtze Estuary in the Changjiang River Delta in Eastern China has been the subject of extensive research. This study extends previous work to examine the influence of wind-waves on the mouth-bar, where about half of the river-borne material settles to the bed. The site is located just outside of Changjiang River mouth, which is meso-tidal and subject to seasonally varying river flows and wind-wave conditions. Modeling was performed with a coupled wave-current hydrodynamic model using TELEMAC and TOMAWAC and validated against observed data. Bottom Shear Stress (BSS) from river, tide and waves based on the numerical model output was used to infer the respective contribution to the evolution of the subaqueous delta. Our examination did not however extend to modeling the sediment transport or the morphological bed changes. The results suggest that (i) the dominance of river discharge is limited to an area inside the mouth, while outside, the mouth-bar is tide-wave dominant; (ii) considering just the tide, the currents on the shallow shoals are flood dominant and deep channels are ebb dominant, which induces continued accretion over the shallows and erodes the deeper parts of the mouth-bar until the tidal currents become too weak to transport sediment; (iii) whereas waves are very efficient at reshaping the shallow shoals, with the effect being subtly dependent on the depth distribution over the mouth-bar; (iv) the stability of shallow shoal morphology is highly dependent on the presence of seasonal wind-waves and characterized as “summer storing and winter erosion”, while deep channels perform like corridors of water and sediment, exporting sediment all year round. The nature of the mouth-bar response has important implications for coastal management, such as the ongoing deep water channel maintenance, reclamations and coastal defense measures. •Shallow shoal sedimentation is of seasonal characteristic titled as 'summer storing and winter erosion'.•Tides and wind-waves controlled short-medium scale sediment movement of the mouth-bar area.•Wave-tide interaction dominates over the bar evolution in the Yangtze Estuary.
ISSN:0278-4343
1873-6955
DOI:10.1016/j.csr.2017.12.004