A Study on the Response of the Hydrodynamic Environment to the Morphology of Radial Sand Ridges in the Coastal Waters of Jiangsu

Changjun Qi,Qinggai Wang,Yuan Zhai,Jixuan Li,Lejun Ma,Hanwen Zhang

doi:10.3390/w11102190

Changjun Qi, Qinggai Wang + Show 4 more

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https://doi.org/10.3390/w11102190

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Abstract

A two-dimensional hydrodynamic model for the waters off the coast of Jiangsu, where there are radial sand ridges (RSRs) (hereinafter, the RSR area), was established based on measured topographic, tide level and tidal current data. Considering the complex topographic and geomorphic characteristics of the RSR group in this area, an unstructured grid was used for the calculation. A four-layer refinement was applied to the grid from outside to inside to better fit the complex topography. The simulations were performed to examine the response of the hydrodynamic environment to the morphology of the RSRs in three scenarios, namely, when there are natural RSRs, no RSRs, and partially reclaimed RSRs. When there are no or partially reclaimed RSRs, the tidal current field still exists in a radial pattern in the RSR area. The radial tidal current field is relatively stable and is not controlled by the morphologies of the RSRs. The topographic changes do not alter the distribution pattern of the radial tidal current field but do affect the local current fields. When there are no RSRs, the flood currents can directly reach Jianggang. Under practical conditions, the RSRs block the tidal currents during a flood tide to some extent. This phenomenon is particularly pronounced when the RSRs are partially reclaimed. For example, during an ebb tide, when the tidal currents encounter sand ridges or reclamation areas, their streamlines bend, and they flow around the obstacles. This change will affect the material transport, sediment deposition and seabed erosion.

Highlights

The radial sand ridges (RSRs) in the coastal waters of Jiangsu encompass a large area and form an area with dynamic sedimentary geomorphic features that is unique in China and rare worldwide
The numerical simulations of the tidal currents in the RSR area have shown that the radial tidal current field exists independent of the submarine topography and may be the main driving force that forms and shapes RSRs [7]
RSRs and that topographic changes do not alter is not controlled by the morphology of the RSRs and that topographic changes do not alter the the distribution radial tidal tidal current current field

Summary

Introduction

The radial sand ridges (RSRs) in the coastal waters of Jiangsu encompass a large area and form an area (hereinafter, RSR area) with dynamic sedimentary geomorphic features that is unique in China and rare worldwide. Investigating and studying this area is of great importance to theoretical research on marine sedimentary dynamics and the ecological protection of offshore wetlands and tidal flats in Jiangsu. In the RSR area off the coast of Jiangsu, the tidal currents flow at 1.0 to 1.5 m/s and there are large amounts of loose sediment, thereby providing conditions for the formation and development of tidal current ridges. The numerical simulations of the tidal currents in the RSR area have shown that the radial tidal current field exists independent of the submarine topography and may be the main driving force that forms and shapes RSRs [7]

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