Hydrodynamical transport structure and lagrangian connectivity of circulations in the Pearl River Estuary

河口 泥沙输移 拉格朗日 地质学 沉积物 电流(流体) 海洋学 出院手续 河流 珍珠 水文学(农业) 地貌学 流域 地理 物理 地图学 岩土工程 构造盆地 数学物理 考古
作者
Nanyang Chu,Guangliang Liu,Jie Xu,Peng Yao,Youwei Du,Zhiqiang Liu,Zheng-Li Cai
出处
期刊:Frontiers in Marine Science [Frontiers Media]
卷期号:9 被引量:3
标识
DOI:10.3389/fmars.2022.996551
摘要

Using a three-dimensional (3D) hydrodynamic model, this study explored the seasonal hydrodynamic transport structure in the Pearl River Estuary and illustrated the intrinsic connectivity under multiscale motions from a Lagrangian perspective. Generally, the surface Lagrangian residual current (U L ) is uniformly southwestward/southeastward in summer/winter, with a stronger intensity in the lower estuary. The bottom U L features in the southeastward direction in the upper estuary and northwest direction in the lower estuary. The fluvial–tide interaction line advances southeastward and northwestward in summer and winter, respectively. The U L captured the major transport processes and was in good agreement with the mean surface sediment transport patterns. In the transition region between Lantau Island and Neilingding Island, where it is largely affected by the interaction between the periodic tidal current and river discharge, the spatially averaged U L showed intensified intratidal variations and had a larger difference with the locally temporally averaged Eulerian residual current. The remarkable Lagrangian coherent structures that illustrated the transport paths and transport convergence regions were identified, which are generally consistent with the bottom sediment depocenters. Based on the Lagrangian connectivity analysis, it was revealed that a barrier between the western and eastern estuaries existed, which was weakened by the strong river discharge during summer. Two convergence regions near the Macau and Hong Kong waters were identified, where the sediment and pollutants easily settled. The study demonstrated the importance of the Lagrangian view in understanding the hydrodynamic process and transport structure in the estuary–shelf regions.

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