Natural bacterial communities impact the motility of isotopes, such as radionuclides, in the environment. As a result of post glacial crustal rebound radionuclides may escape the deep geological repository for spent nuclear fuel on Olkiluoto Island, Finland, and reach surface environments. Lastensuo Bog, a 5300-year-old raised bog in southwestern Finland, functions as analogue ecotope for bogs formed in Olkiluoto due to the crustal rebound. A core comprising the depth profile (0-7 m depth) of the bog including surface Sphagnum moss, peat and bottom clay was obtained using a stainless steel corer. High throughput sequencing was used to characterize the bacterial communities throughout the bog's depth profile. A total of 12,680 bacterial Operational Taxonomic Units (OTUs) (97% sequence similarity) were detected comprising altogether 40 different bacterial phyla. Of these, 13 phyla were present at all depths, accounting for 97%-99% of the whole bacterial community. The bacterial communities differed notably through the bog's depth profile, dividing it into five distinct strata: 1) the Sphagnum moss layer; 2) 0.5-3.7 m; 3) 3.7-4.0 m; 4) 5.5-6.0 m deep peat; 5) the former seabed clay at 6.5-7.0 m depth. Acidobacteria, α-and γ-Proteobacteria dominated the surface community, but in the peat Acidobacteria contributed with up to 85% of the bacterial community. The estimated bacterial population density ranged between 2 × 10 9 and 5 × 10 10 16S rRNA gene copies g −1 dry-weight peat. This study revealed that Lastensuo Bog had a highly diverse bacterial community. Most of the taxonomic groups belonged to thus far poorly characterized and uncultured bacteria with unknown physiological role. However, new insights into the distribution of bacterial taxa and their putative roles in organic carbon break down with-* Corresponding author. I. Tsitko et al. 833 in the bog ecosystem have been obtained and an important baseline for further studies has been established.
Selenite (Se(IV), SeO
3
2−
) uptake and the effect of selenite supplement on protein synthesis was investigated in two
Pseudomonas
sp. strains isolated from a boreal bog. These aerobic bacteria efficiently reduced Se(IV) with intracellular reduced Se
0
observed in the cytoplasm under dark aerobic conditions. The proteome analysis of Se(IV) supplement and temperature responses by SDS-PAGE gel electrophoresis showed variations in the protein expression on the 40–60 kDa regions following these stress factors, probably through enzymes associated to oxidative stress or temperature adaptation. NO
3
−
/NO
2
−
/SO
4
2−
addition enhanced Se(IV) uptake in both bacteria, but Se(IV) uptake sustained also under sulphur and nitrogen starvation. Our findings suggest two different transport mechanisms for Se(IV) uptake in these
Pseudomonas
sp. strains; a low affinity transport system up-regulated by NO
3
−
/NO
2
−
/SO
4
2−
and a distinct Se(IV)O
3
2−
regulated transport system. Following transport, Se(IV) is reduced in the cytoplasm, forming Se
0
granules, visible in TEM and verified using EDX.
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