(Table 1) Mn, Fe, TOC and CaCO3 concentrations in bottom sediments and silt waters of Kandalaksha Bay, White Sea

The redox stratification of bottom sediments in Kandalaksha Bay, White Sea, is characterized by elevated concentrations of Mn (3-5%) and Fe (7.5%) in the uppermost layer, which is two orders of magnitude and one and a half times, respectively, higher than the average concentrations of these elements...

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Bibliographic Details
Main Authors: Rozanov, Alexander G, Volkov, Igor I
Format: Dataset
Language:English
Published: PANGAEA 2009
Subjects:
Archive of Ocean Data
ARCOD
Calcium carbonate
Carbon
organic
total
Carbon analyser AN-7529
7560
Depth
bottom/max
sediment/rock
top/min
Ekolog
Ekolog-2002
Ekolog-2002-3
Ekolog-2002-58
Ekolog-2002-59
Event label
Grab
Iron
Iron 2+
Iron II
ferrous iron
Iron III
ferric iron
Lithology/composition/facies
Manganese
Method comment
MULT
Multiple investigations
Professor Shtokman
PSh55
PSh55-4931
PSh55-4932
PSh55-4933
PSh55-4934
PSh55-4937
Water content
wet mass
White Sea
Kandalaksha
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.792621
https://doi.org/10.1594/PANGAEA.792621
Description
Summary:The redox stratification of bottom sediments in Kandalaksha Bay, White Sea, is characterized by elevated concentrations of Mn (3-5%) and Fe (7.5%) in the uppermost layer, which is two orders of magnitude and one and a half times, respectively, higher than the average concentrations of these elements in the Earth's crust. The high concentrations of organic matter (Corg = 1-2%) in these sediments cannot maintain (because of its low reaction activity) the sulfate-reducing process (the concentration of sulfide Fe is no higher than 0.6%). The clearest manifestation of diagenesis is the extremely high Mn2+ concentration in the silt water (>500 µM), which causes its flux into the bottom water, oxidation in contact with oxygen, and the synthesis of MnO2 oxy-hydroxide enriching the surface layer of the sediments. Such migrations are much less typical of Fe. Upon oxygen exhaustion in the uppermost layer of the sediments, the synthesized oxyhydroxides (MnO2 and FeOOH) serve as oxidizers of organic matter during anaerobic diagenesis. The calculated diffusion-driven Mn flux from the sediments (280 µM/m**2 day) and corresponding amount of forming Mn oxyhydrate as compared to opposite oxygen flux to sediments (1-10 mM/m**2 day) indicates that >10% organic matter in the surface layer of the sediments can be oxidized with the participation of MnO2. The roles of other oxidizers of organic matter (FeOOH and SO4**2-) becomes discernible at deeper levels of the sediments. The detailed calculation of the balance of reducing processes testifies to the higher consumption of organic matter during the diagenesis of surface sediments than it follows from the direct determination of Corg. The most active diagenetic redox processes terminate at depths of 25-50 cm. Layers enriched in Mn at deeper levels are metastable relicts of its surface accumulation and are prone to gradual dissemination.

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