Marina. A. Podvezennaya

M. A. Podvezennaya

Lomonosov Moscow State University

E-mail: podvezennaya@yandex.ru

Publications

Analysis of the effect of moisture content on the spatial variability of carbon stock in forest soil of European Russia using databases
Moscow University Bulletin. Series 17. Soil science. 2022. 2. p.20-27

M. A. Podvezennaya Natalia P. Kirillova

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- Soils play an important role in the biogeochemical carbon cycle; therefore, in connection with the problem of global
  climate change, special attention is paid to the assessment of soil organic matter reserves. The level of accumulation
  of organic matter in the soil is the result of the interaction of many factors that regulate the processes of its transformations, which determines its high spatial variability. The degree of soil moisture is one of the leading factors that
  aff ect the reserves of organic carbon in them. The moisture factor is of particular importance when assessing carbon stocks in the soils of the forest zone, which accounts for 70% of the area of all semihydromorphic soils in Russia According to the literature data, the organic carbon reserves in semihydromorphic forest soils are several times higher than in automorphic ones. To refi ne regional estimates of organic carbon stocks in soils in the forest zone of Russia, information is needed on the variability of carbon stocks in forest soils and its dependence on moisture conditions. In this paper, we discuss the results of a comparative statistical analysis of the variability of organic carbon stocks in automorphic and semihydromorphic forest soils. To estimate the stocks of soil carbon and calculate the quantitative indicators of their variability, we used information from two sources: the database «Organic carbon of soils of forest ecosystems in the European territory
  of Russia» and the soil-geographical database of Russia [4]. The information was collected into a single array, which
  includes the characteristics of 289 soil profiles of forest ecosystems. Of these, 201 sections characterize automorphic
  soils and 88 sections characterize semihydromorphic soils. The results of statistical analysis showed that organic
  carbon stocks (including litter) in semihydromorphic soils are characterized by higher variability, as evidenced by a larger range of changes, interquartile range, and higher standard deviations. The organogenic horizon makes the greatest contribution to the total variability of carbon stocks in soils of forest ecosystems under increased moisture. For it, the values of the standard deviation in semihydromorphic soils are 7 times higher than in automorphic soils, while the diff erences for a meter thick soil are fourfold.
  
  Keywords: soil organic carbon stock; variability; forest soils; moisture factor; regional scale
Coniferous leaf-bearing forest biomass assessment by the example of the educational and experimental soil and ecological center of Lomonosov Moscow State University «Chashnikovo»
Moscow University Bulletin. Series 17. Soil science. 2024. 2. p.37-45

Valeria M. Telesnina M. A. Podvezennaya Alexey S. Sorokin Yulia. L. Meshalkina

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- The aim of the work was to assess the contribution of the following components – biomass and mortmass of tree stands, undergrowth, living ground cover, and forest litter — to the total organic matter’s pool of plant community. The object of the study was a territory of coniferous-deciduous forest located in Solnechnogorsk City District of the Moscow region, in which five permanent sample trial plots of 50×50 m were allocated. The greatest contribution to the total organic matter mass of studied plant communities was made by forest stand perennial parts (up to 87%) and forest stand mortmass (up to 14%), and phytomass of deciduous trees in stand containing 32 to 98%, which was connected with incompleteness of forest restoration succession process. The contribution of forest litter was no more than 3%; litter deposit was low (0,18–1,21 kg×m^-2), which is not typical for spruce forests, as is the fact that all litter is of the destructive type. Living ground cover in terms of floristic composition and ecological-coenotic structure was typical for the subzone of coniferous-deciduous forests; its contribution to the overall productivity of forest biogeocenosis was insignificant. The spatial intrabiogeocenotic structure of litter reserves and living ground cover biomass distribution was disturbed compared to typical spruce forests due to the high proportion of deciduous species in the forest stand. Deciduous species inclusion in the tree tier, typical of the final stage of formation of a secondary coniferous forest during succession, caused a slight increase in the intensity of the biological cycle, which was indicated in this case by a decrease in the supply of litter and a simplification of their structure. Since the biomass and mortmass of tree stand make the greatest contribution to the sequestration of carbon by forest biogeocenoses, it is these components that require the most detailed assessment during monitoring observations, the purpose of which is to assess the carbon reserves of terrestrial ecosystems.
  
  Keywords: species composition; mortmass; ground cover; litter; permanent sample plots