Diagenetic transformation of organic matter in sapropel sediments of small lakes (southern West Siberia and eastern Transbaikalia)

Diagenetic transformation of organic matter in sapropel sediments of small lakes (southern West Siberia and eastern Transbaikalia)

Sapropels, biogenic lake sediments, are characterized by a reduction type of diagenesis, during which decomposition of organic compounds, modification of the pore water chemical composition and precipitation of authigenic minerals, mostly pyrite, occur. Pyrolysis data indicate that organic matter un...

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Bibliographic Details
Published in:Quaternary international Vol. 524; pp. 40 - 47
Main Authors: Leonova, G.A., Maltsev, A.E., Melenevsky, V.N., Krivonogov, S.K., Kondratyeva, L.M., Bobrov, V.A., Suslova, M.Y.
Format: Journal Article
Language:English
Published: Elsevier Ltd 30-07-2019
Subjects:
Authigenic minerals
Diagenesis
Kerogen
Organic matter
Pore waters
Sulfate reduction
Sulfate reduction
Diagenesis
Organic matter
Authigenic minerals
Kerogen
Pore waters
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Summary:Sapropels, biogenic lake sediments, are characterized by a reduction type of diagenesis, during which decomposition of organic compounds, modification of the pore water chemical composition and precipitation of authigenic minerals, mostly pyrite, occur. Pyrolysis data indicate that organic matter undergoes radical transformations already in the uppermost sapropel layers, and composition of the organic matter in the sediments is principally different from the composition of the organic matter of live organisms, which produce the sediments. The sapropels lose labile protein–carbohydrate compounds in the horizon of unconsolidated sediment (0–5 cm), and kerogen appears, whose macromolecular structures start to develop in the very early stages of diagenesis. Various physiological groups of microorganisms provide diagenetic transformations of the organic matter, where heterotrophic, ammonifying and sulfate-reducing bacteria play key role. Their effect is well-seen from the pore water transformation: a decrease in concentrations of SO42− and consequent increase of reduced Fe and S as pyrite in the solid phase of the sediment. Comparative analysis shows that, unlike in lakes of the Baikal area, sapropels in southern West Siberia are affected by more active sulfate reduction, which can depend on both the composition of the organic matter and the SO42− concentration in the pore waters.
ISSN:1040-6182
1873-4553
DOI:10.1016/j.quaint.2019.03.011