Lower viral evolutionary pressure under stable versus fluctuating conditions in subzero Arctic brines

Author:

Zhong Zhi-Ping1,Vik Dean1,Rapp Josephine2,Zablocki Olivier1,Maughan Heather3,Temperton Ben4,Deming Jody5,Sullivan Matthew1

Affiliation:

1. Ohio State University

2. Université Laval

3. Ronin Institute

4. University of Exeter

5. University of Washington

Abstract

Abstract Background: Climate change threatens Earth’s ice-based ecosystems which currently offer archives and eco-evolutionary experiments in the extreme. Arctic cryopeg brine (marine-derived, within permafrost) and sea-ice brine, similar in subzero temperature and high salinity but different in temporal stability, are inhabited by microbes adapted to these extreme conditions. However, little is known about their viruses (community composition, diversity, interaction with hosts, or evolution) or how they might respond to geologically stable cryopeg versus fluctuating sea-ice conditions. Results: We used long- and short-read viromics and metatranscriptomics to study viruses in Arctic cryopeg brine, sea-ice brine, and underlying seawater, recovering 11,088 vOTUs (~species-level taxonomic unit), a 4.4-fold increase of known viruses in these brines. More specifically, the long-read-powered viromes doubled the number of longer (≥25 kb) vOTUs generated and recovered more hypervariable regions by >5-fold compared to short-read viromes. Distribution assessment, by comparing to known viruses in public databases, supported that cryopeg-brine viruses were of marine origin yet distinct from either sea-ice-brine or seawater viruses, while 94% of sea-ice-brine viruses also presented in seawater. A virus-encoded, ecologically important exopolysaccharide biosynthesis gene was identified, and many viruses (~half of metatranscriptome-inferred ‘active’ vOTUs) were predicted as actively infecting the dominant microbial genera Marinobacter and Polaribacterin cryopeg and sea-ice brines, respectively. Evolutionarily, microdiversity (intra-species genetic variations) analyses suggested that viruses within the stable cryopeg brine were under significantly lower evolutionary pressures than those in the fluctuating sea-ice environment, while many sea-ice-brine virus-tail genes were under positive selection, indicating virus-host co-evolutionary arms races. Conclusions: Our results confirmed the benefits of long-read-powered viromics in understanding the environmental virosphere through significantly improved genomic recovery, expanding viral discovery and the potential for biological inference. Evidence of viruses actively infecting the dominant microbes in subzero brines and modulating host metabolism underscored the potential impact of viruses on these remote and underexplored extreme ecosystems. Microdiversity results shed light on the different strategies viruses use to evolve and adapt when extreme conditions are stable versus fluctuating. Together, these findings verify the value of long-read-powered viromics and provide foundational data on viral evolution and virus-microbe interactions in Earth’s destabilized and rapidly disappearing cryosphere.

Publisher

Research Square Platform LLC

Reference125 articles.

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