Abstract
To improve the water quality and alleviate the eutrophication of Lake Yangchenghu, the third largest freshwater body within the Lake Taihu basin in China and an important source of drinking water, nutrient reduction strategies should be urgently addressed by decision makers, since virtually no improvement of water quality has taken place since the mid-1990s. Due to the lack of sufficient observation data and simulation results, a vertically compressed three-dimensional numerical model, the EcoTaihu model, was used to study the impact of three restoration measures on the water quality—namely, total nitrogen (TN), total phosphorus (TP) and biomass of phytoplankton (BP)—of Lake Yangchenghu: (i) total nutrient reduction, (ii) intensification of flushing by water transfer, and (iii) spatial adjustment of inflow channels. In particular, the spatial effects of the three restoration measures on the water quality were investigated. The results showed that the EcoTaihu model is applicable to other shallow lakes in China. The water quality responses to the different restoration scenarios showed significant spatio-temporal differences. The reduction of nutrient loads from inflows appeared to be the most effective measure for controlling the eutrophication and algal blooms in Lake Yangchenghu. The effectiveness of water transfer on the improvement of water quality for TN and TP was more influenced by the differences of nutrient concentrations between the transferred water and lake water, rather than flow rate, since no proportionate increase of improvement was observable in the case of larger transferred rates (60 m3 s−1). The spatial narrowing of inflowing rivers in the southwestern lake could preferentially improve the water quality in the southern bay of the western lake, but would also result in a deterioration trend of water quality in the total lake and drinking water abstraction areas.
Highlights
Lake eutrophication is one of the major global water pollution problems, which is caused by the excessive loading of nutrients, mainly nitrogen (N) and phosphorus (P), into the water bodies [1,2,3]
The scenarios S1–S5 the concentration of total nitrogen (TN), total phosphorus (TP), and gradually decreased in proportion to the nutrient reduction in the concentration of TN, TP, and biomass of phytoplankton (BP) gradually decreased in proportion to the nutrient reduction in the inflows
The simulated results showed that a 50% loads reduction (S5) was the most effective scenario, with around 42% TN, 46% TP, and 41% BP water quality improvement in the whole lake
Summary
Lake eutrophication is one of the major global water pollution problems, which is caused by the excessive loading of nutrients, mainly nitrogen (N) and phosphorus (P), into the water bodies [1,2,3]. Excess nutrient loadings lead to the rapid production of phytoplankton and corresponding deterioration of water quality. Algae blooms will break out and a reliable supply of drinking water is threatened. Urgent and effective engineering measures are required to prevent and control eutrophication [4]. The N and P available in the lake water can be decreased by reducing import, increasing retention in the sediment, or increasing export.
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