4.6 Article

Influencing Factors and Nutrient Release from Sediments in the Water Level Fluctuation Zone of Biliuhe Reservoir, a Drinking Water Reservoir

Journal

WATER
Volume 15, Issue 20, Pages -

Publisher

MDPI
DOI: 10.3390/w15203659

Keywords

nitrogen; phosphorus; release; sediment; water level fluctuation zone; Biliuhe Reservoir

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This study analyzed the distribution and release behavior of nitrogen and phosphorus in sediments of a reservoir's water level fluctuation zone. The findings indicate that sediment is the primary source of nitrogen and acts as a sink for phosphorus in the overlying water. Factors such as water flow and dissolved oxygen affect the release of nitrogen and phosphorus from the sediments.
Significant amounts of nitrogen and phosphorus in sediments will be released into the overlying water during the flood season in the water level fluctuation zone (WLFZ) of reservoirs that undergo periodic drying and flooding. This will result in water quality deterioration of the reservoir. In order to clarify the distribution characteristics and release behavior of nitrogen (N) and phosphorus (P) from sediments in the WLFZ of a reservoir, this study analyzed the sediment distribution characteristics and potential exchange flux sediment-water interface(SWI) through field investigations and sediment core incubation experiments. And the main factors affecting the release of N and P through the incubation experiments in sediments of the WLFZ in the reservoir were determined. Our findings indicated that the sediment in the WLFZ serves as the primary source of NH4+-N and acts as a sink for NO2-N in the overlying water of sediment. The concentration of NH4+-N in the interstitial water of sediments is the key factor that affects the water quality of Biliuhe Reservoir. Total nitrogen content of surface sediments in the WLFZ of Biliuhe Reservoir ranges from 1052.52 +/- 49.39 to 3520.54 +/- 30.31 mg/kg. High concentrations of N pollution are the primary increased risk of eutrophication in Biliuhe Reservoir during summer. The sediment N and P release flux of BLH1 located in the main stream is 1.67 +/- 1.06 and 12.32 +/- 2.42 mg(m(2)d)(-1), respectively, which is smaller than that of BLH2 (3.27 +/- 2.15 and 15.19 +/- 2.36 mg(m(2)d)(-1), respectively), BLH3 (4.24 +/- 1.74 and 17.02 +/- 2.47 mg(m(2)d)(-1), respectively) and BLH4 (7.78 +/- 2.03 and 20.56 +/- 2.38 mg(m(2)d)(-1), respectively) located in the tributary. It indicates that the water conveyance project located in BLH1 has an impact on nutrient scouring of sediments in the WLFZ at this site. The main water environment factor affecting the release of N and P in the sediment of the WLFZ is dissolved oxygen (DO). And the Pearson correlation coefficients between TN and TP with DO were -0.838 and -0.777, respectively (p < 0.05). At the same time, the diffusion of nutrients in the sediments can be effectively inhibited by maintaining a certain DO concentration in the overlying water.

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