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Age, metabolisms, and potential origin of dominant anammox bacteria in the global oxygen-deficient zones

Rui Zhao, Irene H. Zhang, Amal Jayakumar, Bess B. Ward, Andrew R. Babbin

2024ISME Communications10 citationsDOIOpen Access PDF

Abstract

Abstract Anammox bacteria inhabiting oxygen-deficient zones (ODZs) are a major functional group mediating fixed nitrogen loss in the global ocean. However, many basic questions regarding the diversity, broad metabolisms, origin, and adaptive mechanisms of ODZ anammox bacteria remain unaddressed. Here we report two novel metagenome-assembled genomes of anammox bacteria affiliated with the Scalindua genus, which represent most, if not all, of the anammox bacteria in the global ODZs. Metagenomic read-recruiting and comparison with historical data show that they are ubiquitously present in all three major ODZs. Beyond the core anammox metabolism, both organisms contain cyanase, and the more dominant one encodes a urease, indicating most ODZ anammox bacteria can utilize cyanate and urea in addition to ammonium. Molecular clock analysis suggests that the evolutionary radiation of these bacteria into ODZs occurred no earlier than 310 million years ago, ~1 billion years after the emergence of the earliest modern-type ODZs. Different strains of the ODZ Scalindua species are also found in benthic sediments, and the first ODZ Scalindua is likely derived from the benthos. Compared to benthic strains of the same clade, ODZ Scalindua uniquely encodes genes for urea utilization but has lost genes related to growth arrest, flagellum synthesis, and chemotaxis, presumably for adaptation to thrive in the global ODZ waters. Our findings expand the known metabolisms and evolutionary history of the bacteria controlling the global nitrogen budget.

Topics & Concepts

AnammoxBacteriaOxygenOxygen metabolismBiologyChemistryGeneticsNitrogenDenitrificationDenitrifying bacteriaOrganic chemistryWastewater Treatment and Nitrogen RemovalMicrobial Community Ecology and PhysiologyProtist diversity and phylogeny
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