Speciation of nickel and zinc, its short-term inhibitory effect on anammox, and the associated microbial community composition.

Highlights • The short-term effects of Ni and Zn on anammox biomass were determined. • Several inhibition models were tested to evaluate inhibition. • The degree of inhibition was evaluated based on bioavailable fractions. • Candidatus Kuenenia was the dominant anammox-related organism in the samples. Abstract This study provides insight into the short-term effects of nickel and zinc on anammox. The impacts of these heavy metals are evaluated based on their potentially bioavailable fractions, including the intracellular, surface-bound, soluble, free-ion, and weak (labile) complexes of heavy metals, in the presence of certain inorganic/organic species. Results showed that the IC50 values for soluble, intracellular, cell-associated, surface-bound, and free-ion Ni concentrations are 5.99, 0.250, 0.930, 0.680, and 1.36 mg/L, respectively. The inhibitory effect of Zn is found to be lower with respect to Ni, with IC50 values of 6.76, 11.9, 15.1, and 2.71 mg/L for the soluble, intracellular, cell-associated, and free-ion Zn concentrations, respectively. This is the first detailed evaluation of anammox inhibition based on the fractionation of heavy metals. Metagenomic analysis reveals that Candidatus Kuenenia constitute approximately 89% of the entire Planctomycetes population, whereas Candidatus Brocadia are detected in relatively low fractions (3%). [ABSTRACT FROM AUTHOR]