Particle-size distribution patterns in Vertisols and vertic soils of Russia
- Authors: Khitrov N.B.1, Rogovneva L.V.1
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Affiliations:
- Dokuchaev Soil Science Institute
- Issue: Vol 50, No 3 (2017)
- Pages: 312-326
- Section: Soil Physics
- URL: https://journals.rcsi.science/1064-2293/article/view/223914
- DOI: https://doi.org/10.1134/S1064229317030061
- ID: 223914
Cite item
Abstract
Five variants of the distribution of clay (<0.001 mm) and physical clay (<0.01 mm) fractions along the vertical profiles of Vertisols (slitozems) and vertic soils (slitic subtypes of different soil types) from the European part of Russia are distinguished: (1) accumulative, (2) even, (3) regressive, (4) with a maximum in the middle-profile horizon and with their approximately equal contents in the upper and the lower horizons, and (5) eluvial–illuvial. These distribution patterns are related to the lithological specificity of sedimentation and formation of parent materials composed of swelling clays of different geneses and ages. Solonetzic, eluvial- gley, and solodic processes contribute to the development of the eluvial–illuvial and, partly, regressive variants of clay distribution. All the five variants with a predominance of the even distribution pattern can be found in Vertisols. Most of Vertisols in the European part of Russia have a medium clayey or a heavy clayey texture in the entire profile. The regressive distribution pattern is typical of the group of vertic soils. In the upper horizons of Vertisols, where slickensides do not form, the texture is usually heavier than that in the analogous horizons of vertic soils. The middle-profile and lower horizons with slickensides have similar statistical distributions of particle-size fractions in Vertisols proper and in vertic soils. However, in Vertisols, a tendency for a more frequent occurrence of the soils with a higher content of the clay fraction and with a higher portion of this fraction in the physical clay fraction is observed (as compared with the vertic soils).
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About the authors
N. B. B. Khitrov
Dokuchaev Soil Science Institute
Author for correspondence.
Email: khitrovnb@gmail.com
Russian Federation, per. Pyzhevskii 7, Moscow, 119017
L. V. Rogovneva
Dokuchaev Soil Science Institute
Email: khitrovnb@gmail.com
Russian Federation, per. Pyzhevskii 7, Moscow, 119017