Iron Minerals in Soils on Red-Colored Deposits › Научные исследования в СПбГУ

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Iron Minerals in Soils on Red-Colored Deposits. / Vodyanitskii, Yu N.; Lesovaya, S. N.; Sivtsov, A. V.

в: Eurasian Soil Science, Том 34, № 7, 07.2001, стр. 774-782.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

Harvard

Vodyanitskii, YN, Lesovaya, SN & Sivtsov, AV 2001, 'Iron Minerals in Soils on Red-Colored Deposits', Eurasian Soil Science, Том. 34, № 7, стр. 774-782.

APA

Vodyanitskii, Y. N., Lesovaya, S. N., & Sivtsov, A. V. (2001). Iron Minerals in Soils on Red-Colored Deposits. Eurasian Soil Science, 34(7), 774-782.

Vancouver

Vodyanitskii YN, Lesovaya SN, Sivtsov AV. Iron Minerals in Soils on Red-Colored Deposits. Eurasian Soil Science. 2001 Июль;34(7):774-782.

Author

Vodyanitskii, Yu N. ; Lesovaya, S. N. ; Sivtsov, A. V. / Iron Minerals in Soils on Red-Colored Deposits. в: Eurasian Soil Science. 2001 ; Том 34, № 7. стр. 774-782.

BibTeX

@article{78cf563eff5b445dbf1f0c3a2de690d6,

title = "Iron Minerals in Soils on Red-Colored Deposits",

abstract = "The presence of hematite in humus horizons of soils on red-colored deposits in the European part of Russia is related to the stability of this mineral and points to a low contribution of hematite iron to pedogenic hydroxidogenesis. It is found that iron hydroxidogenesis develops in soddy-podzolic soils on Permian deposits, brown forest soils, and typical chernozem. This process is not typical of the soddy weakly podzolic soil formed on the local moraine. Iron hydroxides in soils on red-colored deposits are represented by acicular goethite, collomorphic hydrogoethite, ferroxyhyte, and protoferrihydrite. In the soddy-podzolic soil, the thermodynamically stable goethite appears to be of chemogenic origin, other iron hydroxides being biogenic. In brown forest soils, the thermodynamically unstable iron hydroxides are formed under automorphic conditions, and the chemogenic synthesis of hydroxides resulting in the formation of thermodynamically stable goethite (hydrogoethite) takes place under semihydromorhic conditions. Ferroxyhyte (especially Mn-ferroxyhyte) is more resistant to reductive solution and is, therefore, more common in forest zone soils than ferrihydrite.",

author = "Vodyanitskii, {Yu N.} and Lesovaya, {S. N.} and Sivtsov, {A. V.}",

year = "2001",

month = jul,

language = "English",

volume = "34",

pages = "774--782",

journal = "Eurasian Soil Science",

issn = "1064-2293",

publisher = "МАИК {"}Наука/Интерпериодика{"}",

number = "7",

}

RIS

TY - JOUR

T1 - Iron Minerals in Soils on Red-Colored Deposits

AU - Vodyanitskii, Yu N.

AU - Lesovaya, S. N.

AU - Sivtsov, A. V.

PY - 2001/7

Y1 - 2001/7

N2 - The presence of hematite in humus horizons of soils on red-colored deposits in the European part of Russia is related to the stability of this mineral and points to a low contribution of hematite iron to pedogenic hydroxidogenesis. It is found that iron hydroxidogenesis develops in soddy-podzolic soils on Permian deposits, brown forest soils, and typical chernozem. This process is not typical of the soddy weakly podzolic soil formed on the local moraine. Iron hydroxides in soils on red-colored deposits are represented by acicular goethite, collomorphic hydrogoethite, ferroxyhyte, and protoferrihydrite. In the soddy-podzolic soil, the thermodynamically stable goethite appears to be of chemogenic origin, other iron hydroxides being biogenic. In brown forest soils, the thermodynamically unstable iron hydroxides are formed under automorphic conditions, and the chemogenic synthesis of hydroxides resulting in the formation of thermodynamically stable goethite (hydrogoethite) takes place under semihydromorhic conditions. Ferroxyhyte (especially Mn-ferroxyhyte) is more resistant to reductive solution and is, therefore, more common in forest zone soils than ferrihydrite.

AB - The presence of hematite in humus horizons of soils on red-colored deposits in the European part of Russia is related to the stability of this mineral and points to a low contribution of hematite iron to pedogenic hydroxidogenesis. It is found that iron hydroxidogenesis develops in soddy-podzolic soils on Permian deposits, brown forest soils, and typical chernozem. This process is not typical of the soddy weakly podzolic soil formed on the local moraine. Iron hydroxides in soils on red-colored deposits are represented by acicular goethite, collomorphic hydrogoethite, ferroxyhyte, and protoferrihydrite. In the soddy-podzolic soil, the thermodynamically stable goethite appears to be of chemogenic origin, other iron hydroxides being biogenic. In brown forest soils, the thermodynamically unstable iron hydroxides are formed under automorphic conditions, and the chemogenic synthesis of hydroxides resulting in the formation of thermodynamically stable goethite (hydrogoethite) takes place under semihydromorhic conditions. Ferroxyhyte (especially Mn-ferroxyhyte) is more resistant to reductive solution and is, therefore, more common in forest zone soils than ferrihydrite.

UR - http://www.scopus.com/inward/record.url?scp=0001519576&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:0001519576

VL - 34

SP - 774

EP - 782

JO - Eurasian Soil Science

JF - Eurasian Soil Science

SN - 1064-2293

IS - 7

ER -

ID: 93936227