Abstract
The Huangmaohai Estuary (HE) is a funnel-shaped microtidal estuary in the west of the Pearl River Delta (PRD) in southern China. Since China's reform and opening up in 1978, extensive human activities have occurred and greatly changed the estuary's topography, and modified its hydrodynamics. In this study, we examined the morphological evolution by analyzing remote sensing data with ArcGIS tools and studied the responses of hydrodynamics to the changes in topography from 1977 to 2010 by using the Delft3d model. We took the changes in estuarine circulation during neap tides in dry seasons as an example. The results show that human reclamation caused a narrowing of the estuary, and channel dredging deepened the estuary. These human activities changed both the longitudinal and lateral estuarine circulations. The longitudinal circulation was observed to increase with the deepening and narrowing of the estuary. The lateral circulation experienced changes in both the magnitude and pattern. The momentum balance analysis shows that when the depth and width changed simultaneously, the longitudinal estuarine circulation was modulated by both the channel deepening and width reduction, in which the friction, pressure gradient force, and advection terms were altered. The analysis of the longitudinal vortex dynamics indicates that the changes in the vertical shear of the longitudinal flow, lateral salinity gradient, and vertical mixing were responsible for the change in the lateral circulation. The changes in water depth are the dominant factor affecting lateral circulation intensity. This study has implications for sediment transport and morphological evolution in estuaries heavily impacted by human interventions.
Highlights
Estuarine circulation, the tidally averaged flow in estuaries including both the longitudinal and lateral circulations, is the main driving force for the transport of sediment, pollutants, and other materials, and one of the primary factors affecting the ecological environment of estuaries (Kjerfve et al, 1981)
In the middle of the bay, the nearshore areas were under erosion, and the erosion thickness at the eastern shore was twice that at the western shore
We present the horizontal distributions of tidally averaged surface and bottom circulation and salinity during neap tides for different years in the appendix
Summary
The tidally averaged flow in estuaries including both the longitudinal and lateral circulations, is the main driving force for the transport of sediment, pollutants, and other materials, and one of the primary factors affecting the ecological environment of estuaries (Kjerfve et al, 1981). Human activities may change the estuarine topography, leading to changes in the estuarine circulation and associated material transport. A study of the estuarine circulation and its response to human activities is essential for integrated management of the development of estuarine resources, and the maintenance of the estuary's ecological health. Channel deepening can increase the longitudinal estuarine circulation by decreasing the bottom friction and increasing the baroclinic forcing which is proportional to the water depth (Amin, 1983; Chernetsky et al, 2010; Winterwerp, 2011). Channel deepening affects estuarine circulation in other ways, such as increasing the Stokes transport and the associated compensating return flow (Amin, 1983), altering the nonlinear tidal rectification (Li and O'Donnell, 1997), and tidal asymmetry in mixing between flood and ebb tides (tidal straining) (Simpson, 1990)
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