Litcius/Paper detail

Phylogenetic and functional diverse ANME-1 thrive in Arctic hydrothermal vents

Francesca Vulcano, Cedric Jasper Hahn, Desiree L. Roerdink, Håkon Dahle, Eoghan P. Reeves, Gunter Wegener, Ida Helene Steen, Runar Stokke

2022FEMS Microbiology Ecology11 citationsDOIOpen Access PDF

Abstract

The methane-rich areas, the Loki's Castle vent field and the Jan Mayen vent field at the Arctic Mid Ocean Ridge (AMOR), host abundant niches for anaerobic methane-oxidizers, which are predominantly filled by members of the ANME-1. In this study, we used a metagenomic-based approach that revealed the presence of phylogenetic and functional different ANME-1 subgroups at AMOR, with heterogeneous distribution. Based on a common analysis of ANME-1 genomes from AMOR and other geographic locations, we observed that AMOR subgroups clustered with a vent-specific ANME-1 group that occurs solely at vents, and with a generalist ANME-1 group, with a mixed environmental origin. Generalist ANME-1 are enriched in genes coding for stress response and defense strategies, suggesting functional diversity among AMOR subgroups. ANME-1 encode a conserved energy metabolism, indicating strong adaptation to sulfate-methane-rich sediments in marine systems, which does not however prevent global dispersion. A deep branching family named Ca. Veteromethanophagaceae was identified. The basal position of vent-related ANME-1 in phylogenomic trees suggests that ANME-1 originated at hydrothermal vents. The heterogeneous and variable physicochemical conditions present in diffuse venting areas of hydrothermal fields could have favored the diversification of ANME-1 into lineages that can tolerate geochemical and environmental variations.

Topics & Concepts

BiologyHydrothermal ventArcticPhylogenetic treeEcologyGeneralist and specialist speciesMetagenomicsZoologyPaleontologyHydrothermal circulationGeneGeneticsHabitatMethane Hydrates and Related PhenomenaHydrocarbon exploration and reservoir analysisMicrobial Community Ecology and Physiology