Elemental Sulfur and Its Isotopic Composition in the Black Sea Water

As one of the main intermediate products of hydrogen sulfide oxidation, elemental sulfur plays an important indicator role in understanding the oxidative cycle of sulfur in the water of anoxic basins. The distribution of elemental sulfur in the water column of the Black Sea at stations located in th...

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Published inDoklady earth sciences Vol. 511; no. 1; pp. 531 - 536
Main Authors Dubinin, A. V., Demidova, T. P., Semilova, L. S., Rimskaya-Korsakova, M. N., Dubinina, E. O., Kossova, S. A., Zologina, E. N.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.07.2023
Springer
Springer Nature B.V
Subjects
Anoxia
Anoxic basins
Anoxic waters
Chemical analysis
Continental slope
Depth
Earth and Environmental Science
Earth Sciences
Geochemistry
Hydrogen sulfide
Hydrogen sulphide
Isotope composition
Oxidation
Photosynthesis
Sea-water
Seawater
Sulfur
Sulphides
Sulphur
Valency
Water analysis
Water circulation
Water column
Water density
Water depth
Black Sea
zero-valency sulfur
hydrogen sulfide
elemental sulfur
isotopic composition
Black Sea
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Summary:As one of the main intermediate products of hydrogen sulfide oxidation, elemental sulfur plays an important indicator role in understanding the oxidative cycle of sulfur in the water of anoxic basins. The distribution of elemental sulfur in the water column of the Black Sea at stations located in the area of the continental slope is considered. For the first time, the concentration distributions of two forms of elemental sulfur depending on the depth in the Black Sea water were obtained: suspended elemental sulfur with a fraction of more than 0.45 μm (S 0 ) and zero-valency sulfur (ZVS), which includes the sum of elemental sulfur (suspended and colloidal) and polysulfide sulfur. In the upper anoxic waters, the concentration of S 0 noticeably increases (almost 200 times relative to the depth of 400 m) with an increase in the concentration of hydrogen sulfide and the density of water. At depths of more than 250 m, the concentration of both forms of sulfur remains almost constant (ZVS = 0.21 ± 0.03 µmol/kg, S 0 = 0.05 ± 0.01 µmol/kg). A sharp increase in the concentration of S 0 at the depths of 150–250 m is associated with the oxidation of hydrogen sulfide due to bacterial anoxygenic photosynthesis after sampling. The value of δ 34 S(ZVS) was determined in the waters of two stations Ash-26 and 149 at the depths of 450 and 600 m, respectively, which turned out to be +2.2‰ higher than δ 34 S(Н 2 S) from the same depths, which indicates the bacterial origin of elemental sulfur.
ISSN:1028-334X
1531-8354
DOI:10.1134/S1028334X2360072X