Potential survival strategies of novel comammox and nitrite-oxidizingNitrospirapresent in a reactor treating high-ammonia brackish landfill leachate

Abstract

AbstractNitrification is mediated by numerous different microorganisms, but knowledge of their ecophysiologies is insufficient. Leachate in the late stages of landfill operation provides a brackish environment with a high ammonia concentration, and methanol is added as an electron donor for denitrification. Such a unique environment may contain novel nitrifiers. Here, we present metagenomic analysis of the microbiome from a closed landfill leachate treatment facility to investigate the identity and functions of nitrifiers. Using a genome-centric approach with metagenomic analysis, we retrieved draft genomes for a novel complete ammonia-oxidizing (comammox) bacteriumNitrospiraLAS72; and canonicalNitrospiraLAS18, clustered within a novel sub-lineage VII ofNitrospira;CandidatusNitrosocosmicus LAS21 andNitrosarchaeumLAS73, belonging to the ammonia-oxidizing archaea (AOA). This is the first evidence of comammoxNitrospirain a high-ammonia-containing brackish environment. Canonical ammonia-oxidizing bacteria were not detected. Given the brackish environment and supplementation of methanol used in the facility, we also investigated the methanol metabolism of these nitrifiers and their potential to produce compatible solutes as osmoprotectants. Uniquely amongNitrospira, comammoxNitrospiraLAS72 possesses genes associated with formaldehyde reductase and glycine betaine biosynthesis. Thus,NitrospiraLAS72 may proliferate because of the availability of formaldehyde upstream of carbon metabolism and adapt to fluctuating osmotic pressure by producing a variety of compatible solutes. The discovery of this novel comammoxNitrospira,and canonicalNitrospiraforming a new sub-lineage VII in an ammonia-concentrated brackish environment broadens our knowledge of the diversity and functions of nitrifying microorganisms.