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Phylogenetic diversity of bacteria in the Arctic Ocean sediments neighboring the Bering Strait

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Abstract To expand investigations and insights into the phylogenetic diversity of bacteria inhibiting seafloor biosphere, six Arctic Ocean sediments neighboring the Bering Strait were sampled and their bacterial diversities were… Click to show full abstract

Abstract To expand investigations and insights into the phylogenetic diversity of bacteria inhibiting seafloor biosphere, six Arctic Ocean sediments neighboring the Bering Strait were sampled and their bacterial diversities were investigated by pyrosequencing of 16S rRNA genes. A total of 157,454 trimed sequences were obtained, resulting in 9413 OTUs at the 97% sequence identity (OTU3%). This pyrosequencing allowed detection of higher than 85% of richness estimator Chao1 and Ace at the OTU3% level. Higher coverage (≥0.97) and much less of rare types (singletons, only accounting for 24.5% of all OTU3%) indicated that this pyrosequencing recovered most of bacteria inhabiting these biospheres. At the phylum level, the high relative sequence abundance (42.0% to 63.3%) showed that Proteobacteria was the dominant member at all these sampling sites. At the class level, Deltaproteobacteria, Gammaproteobacteria, and Flavobacteriia composed the majority of bacterial communities, and the relative abundance of Cyanobacteria and Bacilli varied significantly among the six samples. At the genus level, abundant OTUs related with sulfate reduction, including Desulfobulbus and Desulforhopalus, were identified. Shared and unique OTUs analysis revealed that, at the OTU3% level, 508 OTUs were shared by all the six samples, and the number of unique OTUs ranged from 98 (R02) to 195 (NB04). Principal coordinates analysis PCoA analysis revealed that samples C04 and NB04 had the similar communities and were distinct from the others. Canonical correspondence analysis (CCA) revealed that temperature was the most significant factors that correlated with the bacterial community composition. The differences in bacterial compositions and diversities indicate that the similar sediment habitats contain a large variation in microbial biodiversity.

Keywords: neighboring bering; phylogenetic diversity; ocean sediments; arctic ocean; sediments neighboring; diversity bacteria

Journal Title: Acta Ecologica Sinica
Year Published: 2018

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