Ecological engineering analysis and eco-hydrodynamic simulation of tidal rivers in Shenzhen City of China

Abstract

A comprehensive approach using ecological engineering analysis and eco-hydrodynamic simulation was conducted on the tidal rivers in Shenzhen City of China in this study. A tidal river along a near-shore city should be evaluated and regulated from a multidisciplinary point of view, focused especially on ecology, in order to maintain and enhance the ecological structure and function of the river. Firstly, eco-hydrodynamic control can be used, based on simulated modeling of tidal water circulation, to trace the distribution of pollutants and to predict circulation of tidal water. Using findings from this modeling effort, some water control facilities, such as additional channel connection and water gates, can be established. Appropriate operation strategy is to use tidal energy to promote effective water exchange in the water bodies and thereby improve water quality in the tidal river. Secondly, ecological engineering methods should be integrated with hydraulic measures to further improve the environment. Appropriate plant communities for this ecological engineering can be selected. Based on the simulated results of eco-hydrodynamic model, the optimum locations for adding reclaimed land can be determined. These ecological engineering methods are as follows: (1) it is necessary to calculate the ecological water requirements for the tidal river. The water effluent from the sewage treatment plant can be considered as reclaimed water and pumped to upstream of the tidal reach for reuse; (2) well planned aquatic plant systems composed of emergent, floating, and submergent plants can be used to promote water treatment; (3) the configuration of the engineered landscape should give preference to indigenous plants and appropriate non-indigenous plant species; (4) constructed wetlands, especially mangroves at coastal city sites, can also improve the tidal river aquatic environment.