The genus Nitrospira represents the dominant nitrite-oxidizing clade in most wastewater treatment plants (WWTPs) globally, and several Nitrospira strains have been isolated from activated sludge. Using a pre-enrichment strategy with alternating nitrifying and denitrifying conditions, followed by incubation at elevated temperatures, we isolated a novel Nitrospira species, named Nitrospira tepida. This moderately thermophilic species with optimal growth between 37 and 45°C is only distantly related to other Nitrospira and forms a novel lineage VII within the genus, together with few environmental 16S rRNA gene sequences predominantly detected in thermal wastewater or oxygen-limited systems. Genomic and physiological analyses revealed remarkable differences between N. tepida and two other isolates previously obtained from the same WWTP, suggesting niche differentiation between these nitrite oxidizers. N. tepida grows in aggregates, and tolerates nitrite and nitrate concentrations of up to 20 mM and 40 mM, respectively. The Km value for nitrite of N. tepida is 77 ± 26 µM. In summary, this novel Nitrospira lineage seems to be well-adapted for wastewater treatment processes at elevated temperatures and limited aeration, conditions that potentially reduce operational costs of such systems.
Keywords: Nitrospira; cultivation; niche differentiation; nitrification; nitrite oxidation; warm wastewater.
© The Author(s) 2023. Published by Oxford University Press on behalf of FEMS.