Effects of environmental variation and spatial distance on Bacteria, Archaea and viruses in sub-polar and arctic waters

• Published in: The ISME Journal Vol. 7; no. 8; pp. 1507 - 1518
• Main Authors: Winter, Christian, Matthews, Blake, Suttle, Curtis A
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 01.08.2013; Oxford University Press; Nature Publishing Group
• Subjects: 631/158/2446; 631/326/2565; Archaea; Archaea - genetics; Archaea - physiology; Archipelagoes; Arctic Regions; Bacteria; Bacteria - genetics; Bacterial Physiological Phenomena; Biodiversity; Biomedical and Life Sciences; Canada; Community composition; Dispersal; Ecology; Environment; Environmental effects; Evolutionary Biology; Life Sciences; Microbial Ecology; Microbial Genetics and Genomics; Microbiology; Oceans; Oceans and Seas; Original; original-article; RNA, Ribosomal, 16S - genetics; Salinity; Seawater - microbiology; Seawater - virology; Taxa; Temperature; Virus Physiological Phenomena; Viruses - genetics; Water Microbiology; ANW, Labrador Sea; ANW, Canada, Nova Scotia, Halifax; ANW, Atlantic, Baffin Bay; PN, Arctic; PNW, Canada, Arctic Archipelago; metacommunity framework; dispersal; viruses; prokaryotes; ocean
• ISSN: 1751-7362; 1751-7370; 1751-7370
• DOI: 10.1038/ismej.2013.56

We investigated the influence of environmental parameters and spatial distance on bacterial, archaeal and viral community composition from 13 sites along a 3200-km long voyage from Halifax to Kugluktuk (Canada) through the Labrador Sea, Baffin Bay and the Arctic Archipelago. Variation partitioning was used to disentangle the effects of environmental parameters, spatial distance and spatially correlated environmental parameters on prokaryotic and viral communities. Viral and prokaryotic community composition were related in the Labrador Sea, but were independent of each other in Baffin Bay and the Arctic Archipelago. In oceans, the dominant dispersal mechanism for prokaryotes and viruses is the movement of water masses, thus, dispersal for both groups is passive and similar. Nevertheless, spatial distance explained 7–19% of the variation in viral community composition in the Arctic Archipelago, but was not a significant predictor of bacterial or archaeal community composition in either sampling area, suggesting a decoupling of the processes regulating community composition within these taxonomic groups. According to the metacommunity theory, patterns in bacterial and archaeal community composition suggest a role for species sorting, while patterns of virus community composition are consistent with species sorting in the Labrador Sea and suggest a potential role of mass effects in the Arctic Archipelago. Given that, a specific prokaryotic taxon may be infected by multiple viruses with high reproductive potential, our results suggest that viral community composition was subject to a high turnover relative to prokaryotic community composition in the Arctic Archipelago.