Active prokaryotic and eukaryotic viral ecology across spatial scale in a deep-sea brine pool

Author:

Minch BenjaminORCID,Chakraborty Morgan,Purkis Sam,Rodrigue Mattie,Moniruzzaman Mohammad

Abstract

AbstractDeep-sea brine pools represent rare, extreme environments that focus biodiversity at bathyal to abyssal depths. Despite their small size and distribution, brine pools represent important ecosystems to study because they provide unique insight into the limits of life on Earth, and by analogy, the plausibility of life beyond it. A distinguishing feature of many brine pools is the presence of thick benthic microbial mats which develop at the brine-seawater interface. While these bacterial and archaeal communities have received moderate attention, little is known about the viral communities and their interactions with host populations in these environments. To bridge this knowledge gap, we leveraged metagenomic and metatranscriptomic data from three distinct zones within the NEOM brine pool system (Gulf of Aqaba) to gain insights into the active viral ecology around the pools. Here, we report a remarkable diversity and activity of viruses of all nucleic acid types and genome sizes that infect prokaryotic and eukaryotic hosts in this environment. These include giant viruses (phylum:Nucleocytoviricota), RNA viruses, jumbo phages, and polinton-like viruses (PLVs). Many of these appeared to form distinct clades showing the possibility of untapped viral diversity in the brine pool ecosystem. Zone-specific differences in viral community composition and infection strategy were also observed with lysogenic phages seeming to dominate the bacterial mat further away from the pool’s center. Through host matching, viruses infecting metabolically important bacteria and archaea were observed – including a linkage between a jumbo phage and a key manganese-oxidizing and arsenic-metabolizing bacterium. Our findings shed light on the role of viruses in modulating the brine pool microbial community dynamics and biogeochemistry through revealing novel viral diversity, host-virus associations, and spatial-scale heterogeneity in viral dynamics in these extreme environments. These results will provide crucial foundation for further investigation into the adaptations of viruses and their microbial hosts in extreme habitats in the marine ecosystem.

Publisher

Cold Spring Harbor Laboratory

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