Effects of colloids on ammonia nitrogen release under different ion conditions in natural sediments of Lake Taihu, China.

Abstract

Colloids act as vectors for accelerating contaminant movement in natural porous media such as lake sediments. Releasing characteristics of colloids and colloid-adsorbed ammonia nitrogen from lake sediments with the presence of monovalent and divalent cations were studied by an indoor anaerobic flooding incubation experiment. Results show that release of colloids was influenced by valence state and strength of the cation. In the presence of Na+ and Ca2+, the concentrations of the colloids in the overlying water were 11-163mg/L and 13-88mg/L during the entire incubation process and their values increased by 12.7%-122.3% and 1.5%-29.1%, respectively, compared to the control group, which indicated that the promoting effect of monovalent cations on release of colloids was more obvious than that of divalent cations. However, the total mass of colloids release reduced with the increasing ionic strength. Colloid-adsorbed ammonia nitrogen in the overlying water reached 0.15-1.72mg/L and 0.15-1.12mg/L with the presence of Na+ and Ca2+ and was higher 61.7%-161.7% and 21.3%-80.9%, respectively, than in the control group, indicating a consequent effect of ion conditions on the release of ammonium nitrogen from sediments. A significant positive correlation between colloids and ammonia nitrogen concentration further shows that colloidal activity determinately resulted in the increase or decrease in the ammonia nitrogen concentration in the overlying water, which could adsorb ammonia nitrogen and act as vehicles to carry ammonia nitrogen together into the aqueous medium or sink into the sediment. The release of ammonia nitrogen is possibly enhanced by colloidal behavior and varies with spatiotemporal ionic conditions in natural sediments. These findings are essential for improving the understanding of the geological fate of environmental colloids and associated nutritive salts, which provide scientific basis and technical support for the control of endogenous pollution and the comprehensive treatment of water bodies in Lake Taihu.