Microbial diversity from chlorophyll maximum, oxygen minimum and bottom zones in the southwestern Atlantic Ocean

Conspicuous physicochemical vertical stratification in the deep sea is one of the main forces driving microbial diversity in the oceans. Oxygen and sunlight availability are key factors promoting microbial diversity throughout the water column. Ocean currents also play a major role in the physicoche...

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Veröffentlicht in:Journal of marine systems 2018-02, Vol.178, p.52-61
Hauptverfasser: Medina-Silva, Renata, de Oliveira, Rafael R., Pivel, Maria A.G., Borges, Luiz G.A., Simão, Taiz L.L., Pereira, Leandro M., Trindade, Fernanda J., Augustin, Adolpho H., Valdez, Fernanda P., Eizirik, Eduardo, Utz, Laura R.P., Groposo, Claudia, Miller, Dennis J., Viana, Adriano R., Ketzer, João M.M., Giongo, Adriana
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Sprache:eng
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Zusammenfassung:Conspicuous physicochemical vertical stratification in the deep sea is one of the main forces driving microbial diversity in the oceans. Oxygen and sunlight availability are key factors promoting microbial diversity throughout the water column. Ocean currents also play a major role in the physicochemical stratification, carrying oxygen down to deeper zones as well as moving deeper water masses up towards shallower depths. Water samples within a 50-km radius in a pockmark location of the southwestern Atlantic Ocean were collected and the prokaryotic communities from different water depths - chlorophyll maximum, oxygen minimum and deep-sea bottom (down to 1355m) - were described. At phylum level, Proteobacteria were the most frequent in all water depths, Cyanobacteria were statistically more frequent in chlorophyll maximum zone, while Thaumarchaeota were significantly more abundant in both oxygen minimum and bottom waters. The most frequent microorganism in the chlorophyll maximum and oxygen minimum zones was a Pelagibacteraceae operational taxonomic unit (OTU). At the bottom, the most abundant genus was the archaeon Nitrosopumilus. Beta diversity analysis of the 16S rRNA gene sequencing data uncovered in this study shows high spatial heterogeneity among water zones communities. Our data brings important contribution for the characterisation of oceanic microbial diversity, as it consists of the first description of prokaryotic communities occurring in different oceanic water zones in the southwestern Atlantic Ocean. •First DNA metabarcoding of prokaryotic diversity in the southwestern Atlantic Ocean•Beta diversity revealed distinctive prokaryotic communities in each water zone.•Communities at the sea sediment might influence bottom zone communities.•A high frequency of unassigned microorganisms in water layers was observed.•Microorganisms from this site are closely related to members of other marine regions.
ISSN:0924-7963
1879-1573
1879-1573
DOI:10.1016/j.jmarsys.2017.10.008