RESUMO
The short- and long-term influence of quinoline on the properties of anaerobic ammonium oxidation (anammox) biogranules was evaluated. During batch tests, the bioactivity of anammox granules in the presence of different quinoline concentrations was monitored, and the IC50 of quinoline was calculated to be 13.1â¯mgâ¯L-1 using a non-competitive inhibition model. The response of anammox granules to pre-exposure to quinoline was dependent on metabolic status, and the presence of both quinoline and NO2--N had a rapid detrimental effect, resulting in a 64.5% decrease within 12â¯h. During continuous-flow experiments, the nitrogen removal rate (NRR) of the reactor decreased sharply within 3â¯days in the presence of 10â¯mgâ¯L-1 quinoline and then was restored to 2.6â¯kgâ¯Nâ¯m-3â¯d-1. In the presence of quinoline-induced stress, the specific anammox activity and levels of extracellular polymeric substance and heme c were decreased, while settling velocity persistently increased. After cultivation and acclimation obtained by adding a medium level of quinoline to the influent, the anammox granule sludge was able to tolerate 10â¯mgâ¯L-1 quinoline in 178â¯days.