News Release

Acellular players in the high cryosphere: diversity, function and activity of the global supraglacial DNA viruses

Peer-Reviewed Publication

Science China Press

Composition, classification and specificity of global supraglacial DNA viruses

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(a) Specificity of supraglacial virus populations (vOTUs). (b) Shared and unique vOTUs across different regions. (c) Proportion of classified vOTUs. (d) Compositions of classified vOTUs. (e) Relative abundance of classified and unclassified vOTUs. Here, relative abundance represents the average relative abundance of each taxonomic group’s samples from each region. Panels (e) and (f) share the same legend. Hosts of each viral group (e.g., Eukaryotes and Prokaryotes) are also included.

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Credit: ©Science China Press

Supraglacial environments mainly consist of four main types of habitats for microbes and viruses, including snow, ice, meltwater, and cryoconites (the granular sediment on glacier surfaces). The paper revealed that there were more than 10,000 viral species in global supraglacial environments. This is a 15-fold expansion of DNA viral genomic inventory ever known. These viruses mainly belong to bacteriophages, viruses infecting bacteria. Liu et al., also found the viral communities showed a clear regional and habitat distribution pattern, with polar glacier samples separated from mountain glaciers of the Tibetan Plateau and cryoconites samples separated from snow and ice.

In addition, this work revealed a vigorous viral host interaction in supraglacial environments.

They found that supraglacial viruses could be linked to ~83% of obtained prokaryotic phyla/classes and possessed the genetic potential to promote metabolism and increase cold adaptation, cell mobility, and phenolic carbon use of hosts in hostile environmental conditions using diverse auxiliary metabolic genes. The on-site measurements carried out by Liu et al. showed that the virus production rate could reach 2×108 VLPs g−1 h−1, which is similar to global ocean and freshwater lakes.

Finally, a thorough analysis of viral genomic content revealed that supraglacial DNA viruses as shuttles for Antibiotic resistance genes (ARGs) and virulence factors (VFs). Liu et al. detected 122 (1.1% of total viral species) and 924 unique viral species (8.6% of total viral species) carrying 31 unique ARG types and 1405 VFs coding genes. Hence, supraglacial DNA viruses might serve as mobile genetic elements for ARGs and VFs in glacier ecosystems.

In conclusion, this study provides a systematic view of the diversity and function of mountain and polar supraglacial DNA viruses. It emphasized the importance of viruses in supraglacial biogeochemical cycling and their potential impacts on downstream ecosystem sustainability. This study expands our knowledge of the diversity, function, and adaptability of supraglacial viruses, and provides a basis for future research on the world’s glaciers.


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