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Environmental drivers of viral community composition in Antarctic soils identified by viromics
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Environmental drivers of viral community composition in Antarctic soils identified by viromics
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Environmental drivers of viral community composition in Antarctic soils identified by viromics
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Journal Article
Environmental drivers of viral community composition in Antarctic soils identified by viromics
2017
Overview
Background
The Antarctic continent is considered the coldest and driest place on earth with simple ecosystems, devoid of higher plants. Soils in the ice-free regions of Antarctica are known to harbor a wide range of microorganisms from primary producers to grazers, yet their ecology and particularly the role of viruses is poorly understood. In this study, we examined the virus community structures of 14 soil samples from the Mackay Glacier region.
Methods
Viral communities were extracted from soil and the dsDNA was extracted, amplified using single-primer amplification, and sequenced using the Ion Torrent Proton platform. Metadata on soil physico-chemistry was collected from all sites. Both read and contig datasets were analyzed with reference-independent and reference-dependent methods to assess viral community structures and the influence of environmental parameters on their distribution.
Results
We observed a high heterogeneity in virus signatures, independent of geographical proximity. Tailed bacteriophages were dominant in all samples, but the incidences of the affiliated families
Siphoviridae
and
Myoviridae
were inversely correlated, suggesting direct competition for hosts. Viruses of the families
Phycodnaviridae
and
Mimiviridae
were present at significant levels in high-diversity soil samples and were found to co-occur, implying little competition between them. Combinations of soil factors, including pH, calcium content, and site altitude, were found to be the main drivers of viral community structure.
Conclusions
The pattern of viral community structure with higher levels of diversity at lower altitude and pH, and co-occurring viral families, suggests that these cold desert soil viruses interact with each other, the host, and the environment in an intricate manner, playing a potentially crucial role in maintaining host diversity and functioning of the microbial ecosystem in the extreme environments of Antarctic soil.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
/ Altitude
/ Analysis
/ Bacteriophages - classification
/ Bacteriophages - isolation & purification
/ Biomedical and Life Sciences
/ Calcium
/ Cold
/ Deserts
/ DNA
/ Genomes
/ Glaciers
/ Ice
/ Microbial Genetics and Genomics
/ Phages
/ Soil
/ Soils
/ Studies
/ Virology
/ Viromics
/ Viruses
