Abstract
Antarctic ecosystems are dominated by micro-organisms, and viruses play particularly important roles in the food webs. Since the first report in 2009 (López-Bueno etal. ), 'omic'-based studies have greatly enlightened our understanding of Antarctic aquatic microbial diversity and ecosystem function (Wilkins etal. ; Cavicchioli ). This has included the discovery of many new eukaryotic viruses (López-Bueno etal. ), virophage predators of algal viruses (Yau etal. ), bacteria with resistance to phage (Lauro etal. ) and mechanisms of haloarchaeal evasion, defence and adaptation to viruses (Tschitschko etal. ). In this issue of Molecular Ecology, López-Bueno etal. () report the first discovery of RNA viruses from an Antarctic aquatic environment. High sequence coverage enabled genome variation to be assessed for four positive-sense single-stranded RNA viruses from the order Picornavirales. By examining the populations present in the water column and in the lake's catchment area, populations of 'quasispecies' were able to be linked to local environmental factors. In view of the importance of viruses in Antarctic ecosystems but lack of data describing them, this study represents a significant advance in the field.
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