Nikolay Ilyich Zhilin
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Typology of forest litter of some types of plantings of the Botanical garden of Moscow State University named after M.V. Lomonosov (Leninskie gory)Moscow University Bulletin. Series 17. Soil science. 2019. 2. p.3-15Lev G. Bogatyrev Anna I. Benediktova Philip I. Zemskov Anna N. Demidova Grigory A. Boyko Alexander V. Rappoport Alexander N. Vartanov Nikolay I. Zhilin Alexander V. Rappoportread more680
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Forest litter of some coniferous and deciduous plantations within the Botanical Garden of the Moscow State University is studied. It is established that in the conditions of the deciduous plantations, forest litters of destructive types develop, whereas in the coniferous plantations - fermentative and humified ones. The total reserves of forest litters range from 500-800 g/m2 in deciduous plantations, up to 1000-5000 g/m2 in coniferous ones. It is shown that small-leaved plantations are characterized by high rates of cycling, with a significant decrease in the coniferous ecosystems. It was shown for the first time that with an increase in the proportion of leaves in the litter, the overall decomposition rate of terrestrial litter increases substantially, which is confirmed by the theory of “hot points” proposed in the scientific literature.
Keywords: biological cycle; rate of biological turnover; same-aged phytocenoses; forest floor reserves; forest litters typology; structural and functional organization of forest litter
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Long-term dynamics of snow depth and snow composition in terms of the geochemical landscape of the upper reaches of the river KlyazmaMoscow University Bulletin. Series 17. Soil science. 2019. 4. p.27-36Lev G. Bogatyrev Nikolay I. Zhilin Philip I. Zemskov Mikhail M. Karpukhin Anna I. Benediktova Alexander N. Vartanov Yulia A. Zavgorodnaya Vladimir V. Deminread more651
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We discuss the dynamics of the snow cover and its composition for the period 2013-2018 is shown that the annual dynamics of the snow cover is characterized by the alternation of high and low values. Thus, the highest values were typical for the winter of 2012/2013, followed by a decrease in 2013/2014. The leading role in the distribution of snow cover belongs to the position of the elementary landscape within the geochemical landscape. In all years of research, the water equivalent of snow cover is characterized by bicarbonate-calcium composition. The content of micro components in General is in the same order with the results given for the South taiga landscapes. Some excess of individual components in the composition of snow water in comparison with Meshchersk and Baikal landscapes, taken as a background, due to the proximity of the studied geochemical landscape and the main road M-10 (Moscow-St. Petersburg). It is assumed that the relatively high content of calcium in the snow water of the superaqueous landscape is associated with its possible arrival from the surface of meadowmarsh carbonate soils, boiling from the surface. Sulfate ion has been found to play a leading role in the diagnosis of atmogeochemical pollution, which is partially established for the studied landscapes.
Keywords: snow depth; chemical composition of snow cover; distribution of snow cover; geochemical landscape
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Water Extracts as Criterion of Assessment of Geochemical Conditions on a Monolithic Soil–Geochemical Catena in the Upper Reaches of the Klyaz’ma RiverMoscow University Bulletin. Series 17. Soil science. 2020. 4. p.17-26Lev G. Bogatyrev Anna I. Benediktova Valeria M. Telesnina Mikhail M. Karpukhin Nikolay I. Zhilin Philip I. Zemskov Vladimir V. Deminread more629
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In soils developing within a monolithic soilgeochemical catena, the composition of water-soluble macro-, microelements and anions has been studied. It has been shown that, as hydromorphism increases from eluvial to accumulative landscapes, the carbon and nitrogen contents naturally increase. The nature of the distribution of water-soluble forms of macro$ and microelements is due to bioaccumulative processes and features of eluvial-illuvial differentiation of soils. In the marginal parts of the watershed depression, the combination of eluvial$illuvial differentiation of the soil and intensive lateral removal in the spring determines the maximum leaching of the upper soil horizons. The use of cluster analysis confirms in the system of geochemical catena the relationship of genetic affiliation and soil position with the composition of water extracts.
Keywords: water extracts; water-soluble macroelements; microelements; geochemical landscape; southern taiga zone; sod-podzolic soils
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Water soluble components of the soils of heterolithic conjugate landscapes of the southern taiga subzoneMoscow University Bulletin. Series 17. Soil science. 2021. 1. p.3-13Lev G. Bogatyrev Anna I. Benediktova Mikhail M. Karpukhin Valeria M. Telesnina Nikolay I. Zhilin Alexander N. Vartanov Philip I. Zemskov Vladimir V. Deminread more642
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The composition of water extracts of soils developing within the het erolithic geochemical landscape of the Klyazma river basin in its upper reaches has been studied. The main factor that determines the content of water-soluble components is the genesis of soils and the position of the soil in a series of elementary landscapes. The specifics of the content of water soluble macro- and microelements in the soil profile outside the zone of anthropogenic influence and developing according to the eluvial- illuvial type is due to their natural organization, with the combination of podzolization in combination with texture organization. Under the con ditions of a supersquale landscape that has emerged from the flood regime, characterized by the complexity of the soil cover, the distribution of water soluble components in the soil profile is determined by the carbonate content and proximity to the surface of soil ground water. An additional factor determining the composition of soil water on the lowered elements of the relief is the underlying soil with peat bogs. It is shown that calcium is among the most important elements that determine the specificity of the studied heterolithic landscape. The composition of water-soluble components for each of the soils is specific, which is confirmed on the basis of the results of cluster analysis.
Keywords: water extracts; water soluble components; macroelements; microelements; southern taiga subzone; sod podzolic soils; geochemical landscape
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Features of biogeochemical processes of soils in urban conditions based on the study of ecosystems of Large lysimeters of the soil stationary of MSUMoscow University Bulletin. Series 17. Soil science. 2021. 3. p.21-31Lev G. Bogatyrev Nikolay I. Zhilin Mikhail M. Karpukhin Tatyana V. Prokofieva Anna I. Benediktova Philip I. Zemskov Alexander N. Vartanov Irina O. Plekhanova Nikolai An. Shnyrev Vladimir V. Demin Gleb Ruslanovich Glazman Evgeny N. Kubarevread more711
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The functioning of stationary soil lysimeters is determined by a limited volume of soil in both horizontal and vertical directions. The areal spatial limitation and the proximity of phytocenoses to each other in the large lysimeters at the
Moscow State University Soil Station determines the interbiogeocenotic exchange of plant litter, while the vertical
one excludes the role of groundwater and their influence on soil formation. The absence of lateral runoff, which is
common in natural landscapes, and the increased supply of alkaline earth elements with atmospheric precipitation
and dust, reduces the manifestation of the eluvial-illuvial process. Comparison of lysimetric waters in 1967–1968
and 2014–2015 showed a significant increase over time in the concentration of elements such as calcium, sodium,
magnesium and potassium, and among the anions chloride and sulfate ions. The local spatial geochemical contrast
of lysimetric waters caused by the effect of anti-icing agents, however, does not change the relative migration ability
of elements. According to the level of biogeochemical accumulation of elements in the soil, macroelements form
a series of Ca > K > Al > Mg > Na, and trace elements — Zn > Sr > Cu > Ba, while maintaining the same type on all
types of lysimeters. An increase in the concentration of elements in the soil occurs in the following order: broad
leaf > spruce > mixed > pure fallow. The increased accumulation of elements in the soil profile of spruce forests in
comparison with mixed plantations correlates with the type of humus forming here, which is close to the moder
type, which is due to the combination of coniferous and deciduous litter.Keywords: biogeochemistry; primary soil formation; macroelements; microelements; deicing agents; atmospheric precipitation
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Changes in the composition of natural waters in the system “atmospheric precipitation — soil solutions — soil-ground waters — surface waters” (the case study of Klyazma river landskapes)Moscow University Bulletin. Series 17. Soil science. 2022. 1. p.3-13Nikolay I. Zhilin Lev G. Bogatyrev Anna I. Benediktova Mikhail M. Karpukhin Philip I. Zemskov Valeria M. Telesnina Alexander N. Vartanov Alexander V. Rappoport Vladimir V. Demin Dmitry V. Ladoninread more616
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Within the landscapes of the upper reaches of the Klyazma River, the long-term component composition of natural waters in the system has been studied: snow waters — soil solutions — soil-ground waters — surface waters. It has been determined that the regular excess of the content of the main macro- and microelements in soil solutions in comparison with snow waters at subsequent stages is first replaced by an increase in the concentration of components in soil-ground water, followed by a decrease in the content in surface waters — streams and river waters. It is shown that the relatively high mobility of sodium, magnesium, potassium and calcium, and of the anions chloride and nitrate ions, is accompanied by a significant decrease in the mobility of elements of the family of iron, copper and zinc at the transition from groundwater to surface water. This explains the wide distribution of segregated forms, presented in the form of nodules in soils of semi-hydromorphic landscapes, up to ortsands, and in the boggy conditions of near-terrace depressions on the border with the super-aquatic landscape, the formation of typical bog ores. Thus, the composition of natural waters and its change serves not only as a good, but also a necessary tool for explaining the features of migration of elements in the soil — natural water system.
Keywords: snow waters; macroelements; microelements; neoplasms; natural waters
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Features of the distribution and composition of snow cover within the landscapes of ChashnikovoMoscow University Bulletin. Series 17. Soil science. 2024. 2. p.46-62Alexander N. Vartanov Lev G. Bogatyrev Vasily An. Kuznetsov Philip I. Zemskov Nikolay I. Zhilin Valeria M. Telesnina Daria Al. Zhulidova Anna I. Benediktova Mikhail M. Karpukhin Maxim S. Kadulin Vladimir V. Deminread more377
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For landscape conditions in the upper reaches of the river Klyazma, Solnechnogorsk district, Moscow region, the height and reserves of snow cover were investigated, and the chemical composition of the snow was determined. The basis for considering the component composition of snow cover was the geochemical taxonomy of chemical elements based on the characteristics of water migration and abundance.
Data from 23 snow sampling points were interpolated in SAGA GIS using the inverse distance weighting (IDW) method. On this basis, zones differing in the chemical composition of snow are identified. One of the zones is confined to the M-10 Moscow-St. Petersburg highway, while the second borders on populated areas. The area close to the highway is characterized by increased levels of calcium, sodium, aluminum, and chloride ions in the snow cover. The second zone, bordering populated areas, is characterized by a high content of calcium, copper, and manganese in the snow. For the third zone, low concentrations of components in the snow were observed, which are characteristic of a superaquatic landscape due to the distance from sources of pollution.
The studied composition of snow waters belongs to the bicarbonate-sodium-calcium-chloride class. It has been shown that the height and reserves of snow cover are partially controlled by two factors: the type of elementary landscape and the type of ecosystem. Against this background, the spatial distribution of concentrations of elements and anions in snow is predominantly controlled by the anthropogenic factor.
Keywords: hydrochemical characteristics; natural landscapes; map diagram; highway; pollution
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