2019
DOI: 10.1134/s1064229319050120
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Neoformations (Nodules and Placic Layers) in Surface-Gleyed Loamy Sandy Soils of the Northern Part of the Tambov Plain

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Cited by 3 publications
(3 citation statements)
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“…The FMN accumulate Cd, Pb, Co, and Mo in arable deeply gleyed light gray soils in the southern part of the East European Plain (Tambov Region). The content of Zn and Cu in concretions of light gray soils is significantly lower than in concretions of soddy-podzolic soils of the taiga zone [37].…”
Section: электронный научно-производственный журналmentioning
confidence: 71%
“…The FMN accumulate Cd, Pb, Co, and Mo in arable deeply gleyed light gray soils in the southern part of the East European Plain (Tambov Region). The content of Zn and Cu in concretions of light gray soils is significantly lower than in concretions of soddy-podzolic soils of the taiga zone [37].…”
Section: электронный научно-производственный журналmentioning
confidence: 71%
“…Moreover, many microbial decomposers have the capacity to oxidize Mn­(II) in order to subsequently benefit from the decomposing power of reactive Mn­(III) complexes. , Yet, besides catalyzing decomposition, Mn also enables C protection. Dissolved organic C adsorbs on the surfaces of Mn oxides, often resulting in Mn nodules with C content several times exceeding that of the bulk soil. , Mn­(III)/Mn­(IV) oxides coat surfaces of soil mineral particles, often trapping or coprecipitating with soil organic compounds. , However, the permanence of SOM protection within Mn nodules is dubious since in anaerobic conditions, Mn­(III)/Mn­(IV) oxides can be reduced and dissolved through a number of abiotic and biotic pathways, often freeing the previously protected SOM …”
Section: Introductionmentioning
confidence: 99%
“…The strong dependence of Mn oxidation state (OxS) on O 2 availability and microbial activity, as well as differences in Mn­(II), Mn­(III), and Mn­(IV) solubilities, lead to formation of complex spatial patterns in Mn distribution at spatial scales ranging from a few millimeters to entire soil profiles. In anaerobic conditions, soluble Mn­(II) formed during Mn oxide reduction diffuses toward boundaries of oxic/anoxic transition zones, where it is then oxidized, forming MnIII/MnIV nodules. ,, Fluctuating hydromorphic conditions and periodic exposure to oxic environments leads to the formation of sizeable (> few millimeters) Mn­(III)/Mn­(IV) concretions, orthsteins, and nodules. , Moreover, the speed in the onset of oxic conditions defines the particular shape of the resultant Mn concretions . At fine (few centimeters) scales, spatial patterns in Mn oxide depositions can reflect the transition zone’s position, the availability of organic materials subject to active microbial decomposition, and locations of hyphae from fungal decomposers. ,, …”
Section: Introductionmentioning
confidence: 99%