Compositional differences in particle‐associated and free‐living microbial assemblages from an extreme deep‐ocean environment

Summary Relatively little information is available for the composition of microbial communities present in hadal environments, the deepest marine locations. Here we present a description of the phylogenetic diversity of particle‐associated (> 3 µm) and free‐living (3–0.22 µm) microorganisms present in a pelagic trench environment. Small subunit ribosomal RNA gene sequences were recovered from members of the Bacteria , Archaea and Eukarya obtained from a depth of 6000 m in the Puerto Rico Trench (PRT). Species richness estimates for the bacterial particle‐associated fraction were greater compared with the free‐living fraction and demonstrated statistically significant compositional differences, while the archaeal fractions were not found to be significantly different. The particle‐associated fraction contained more Rhodobacterales and unclassified Myxococcales along with Bacteroidetes , Planctomycetes and chloroplast sequences, whereas the free‐living fraction contained more Caulobacterales , Xanthomonadales and Burkholderiales , along with Marine Group A and Gemmatimonadetes . The Eukarya contained a high abundance of Basidiomycota Fungi 18S rRNA genes, as well as representatives from the super‐groups Rhizaria , Excavata and Chromalveolata . A diverse clade of diplonemid flagellates was also identified from the eukaryotic phylotypes recovered, which was distinct from previously identified deep‐sea pelagic diplonemid groups. The significance of these results to considerations of deep‐sea microbial life and particle colonization is discussed in comparison to the few other deep‐ocean phylogenetic surveys available.