%A Winsley,Tristrom J. %A Snape,Ian %A McKinlay,John %A Stark,Jonny %A van Dorst,Josie M. %A Ji,Mukan %A Ferrari,Belinda C. %A Siciliano,Steven D. %D 2014 %J Frontiers in Microbiology %C %F %G English %K candidate pylum TM7,soil bacteria,Arctic,Antarctic,Siderophores,bacterial culturing %Q %R 10.3389/fmicb.2014.00345 %W %L %M %P %7 %8 2014-July-15 %9 Original Research %+ Tristrom J. Winsley,Australian Antarctic Division, Department of the Environment,Kingston, TAS, Australia,tristrom.winsley@aad.gov.au %+ Tristrom J. Winsley,Department of Soil Science, University of Saskatchewan,Saskatoon, SK, Canada,tristrom.winsley@aad.gov.au %# %! Factors influencing TM7 abundance %* %< %T The ecological controls on the prevalence of candidate division TM7 in polar regions %U https://www.frontiersin.org/articles/10.3389/fmicb.2014.00345 %V 5 %0 JOURNAL ARTICLE %@ 1664-302X %X The candidate division TM7 is ubiquitous and yet uncultured phylum of the Bacteria that encompasses a commonly environmental associated clade, TM7-1, and a “host-associated” clade, TM7-3. However, as members of the TM7 phylum have not been cultured, little is known about what differs between these two clades. We hypothesized that these clades would have different environmental niches. To test this, we used a large-scale global soil dataset, encompassing 223 soil samples, their environmental parameters and associated bacterial 16S rRNA gene sequence data. We correlated chemical, physical and biological parameters of each soil with the relative abundance of the two major classes of the phylum to deduce factors that influence the groups' seemingly ubiquitous nature. The two classes of the phylum (TM7-1 and TM7-3) were indeed distinct from each other in their habitat requirements. A key determinant of each class' prevalence appears to be the pH of the soil. The class TM7-1 displays a facultative anaerobic nature with correlations to more acidic soils with total iron, silicon, titanium and copper indicating a potential for siderophore production. However, the TM7-3 class shows a more classical oligotrophic, heterotroph nature with a preference for more alkaline soils, and a probable pathogenic role with correlations to extractable iron, sodium and phosphate. In addition, the TM7-3 was abundant in diesel contaminated soils highlighting a resilient nature along with a possible carbon source. In addition to this both classes had unique co-occurrence relationships with other bacterial phyla. In particular, both groups had opposing correlations to the Gemmatimonadetes phylum, with the TM7-3 class seemingly being outcompeted by this phylum to result in a negative correlation. These ecological controls allow the characteristics of a TM7 phylum preferred niche to be defined and give insight into possible avenues for cultivation of this previously uncultured group.