Humus forms, earthworm bioturbation and soil organic carbon storage in Chernozems of the low-intensity land use of steppe zone of Ukraine

Chernozems of the low-intensity land use systems of the steppe zone of Ukraine are an important factor of sustainable development, contributing to the conservation of natural resources and maintaining a balance between agricultural productivity and environmental protection. The aim of the study was...

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Published inGeoderma Regional Vol. 42; p. e00988
Main Authors Yakovenko, Volodymyr, Gorban, Vadym, Kotovych, Oleksandr, Didur, Oleh, Poleva, Julia
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2025
Subjects
Agroforestry
Black soils
Earthworm casts
Forest soils
Humipedon
Humus state
Land use management
Black soils
Humipedon
Earthworm casts
Land use management
Humus state
Forest soils
Agroforestry
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Abstract Chernozems of the low-intensity land use systems of the steppe zone of Ukraine are an important factor of sustainable development, contributing to the conservation of natural resources and maintaining a balance between agricultural productivity and environmental protection. The aim of the study was to assess the humus state of Chernozems of the low-intensity land use systems of the steppe zone of Ukraine under the influence of different types of vegetation (Wildland, Shelterbelts and Native forest). The humus state was determined by such characteristics as humus forms, intensity of earthworm bioturbation, content and reserves of soil organic carbon (SOC), SOC/clay ratio. Humus forms were classified according to Keys of classification of humus systems and forms. The content of earthworm casts was calculated in thin sections as a percentage of the total number of aggregates of the 2–0.25 mm fraction of the surface layer. Soil organic carbon was determined by the titration method, with subsequent calculation of its reserves in the soil layer. The SOC/clay Ratio was used to determine the soil structure qualities class and the level of soil layer saturation with humus. The comparison of quantitative characteristics of soils under the influence of different types of vegetation was carried out by statistical methods (descriptive statistics, ANOVA/MANOVA, multiple comparison of means according to the Tukey criterion). It was found that humipedons of Wildland Chernozems belong to the Mesomull humus form, humipedons under Shelterbelts and Native forest belong to Oligomull. Earthworm casts content in Native forest Chernozem is 3.5 and 2.9 times higher than in Chernozems under wildland steppe vegetation and artificial forest, respectively. SOC/clay Ratio for Native forest statistically significantly (p ˂ 0.05) exceeds the indicators for Wildland and Shelterbelts. The dependence of the distribution of SOC reserves in the thickness of the studied soils on the type of vegetation was established, according to which the SOC reserve for Native forest statistically significantly (p ˂ 0.05) exceeds this indicator for Wildland and Shelterbelts by 1.42 and 1.40 times, respectively. Thus, the type of vegetation significantly affects the quantity, quality of humus and the overall humus state of Chernozems of the steppe zone of Ukraine under low-intensity land use. The results of the study will be useful for diagnosing organic matter transformations, accounting for carbon reserves in soils of steppe landscapes of Ukraine, and monitoring the humus state of Chernozems that are actively used in agriculture.
AbstractList Chernozems of the low-intensity land use systems of the steppe zone of Ukraine are an important factor of sustainable development, contributing to the conservation of natural resources and maintaining a balance between agricultural productivity and environmental protection. The aim of the study was to assess the humus state of Chernozems of the low-intensity land use systems of the steppe zone of Ukraine under the influence of different types of vegetation (Wildland, Shelterbelts and Native forest). The humus state was determined by such characteristics as humus forms, intensity of earthworm bioturbation, content and reserves of soil organic carbon (SOC), SOC/clay ratio. Humus forms were classified according to Keys of classification of humus systems and forms. The content of earthworm casts was calculated in thin sections as a percentage of the total number of aggregates of the 2–0.25 mm fraction of the surface layer. Soil organic carbon was determined by the titration method, with subsequent calculation of its reserves in the soil layer. The SOC/clay Ratio was used to determine the soil structure qualities class and the level of soil layer saturation with humus. The comparison of quantitative characteristics of soils under the influence of different types of vegetation was carried out by statistical methods (descriptive statistics, ANOVA/MANOVA, multiple comparison of means according to the Tukey criterion). It was found that humipedons of Wildland Chernozems belong to the Mesomull humus form, humipedons under Shelterbelts and Native forest belong to Oligomull. Earthworm casts content in Native forest Chernozem is 3.5 and 2.9 times higher than in Chernozems under wildland steppe vegetation and artificial forest, respectively. SOC/clay Ratio for Native forest statistically significantly (p ˂ 0.05) exceeds the indicators for Wildland and Shelterbelts. The dependence of the distribution of SOC reserves in the thickness of the studied soils on the type of vegetation was established, according to which the SOC reserve for Native forest statistically significantly (p ˂ 0.05) exceeds this indicator for Wildland and Shelterbelts by 1.42 and 1.40 times, respectively. Thus, the type of vegetation significantly affects the quantity, quality of humus and the overall humus state of Chernozems of the steppe zone of Ukraine under low-intensity land use. The results of the study will be useful for diagnosing organic matter transformations, accounting for carbon reserves in soils of steppe landscapes of Ukraine, and monitoring the humus state of Chernozems that are actively used in agriculture.
ArticleNumber e00988
Author Kotovych, Oleksandr
Yakovenko, Volodymyr
Poleva, Julia
Gorban, Vadym
Didur, Oleh
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  organization: Dnipro State Agrarian and Economic University, Sergey Yefremov Str. 25, Dnipro 49600, Ukraine
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  givenname: Vadym
  surname: Gorban
  fullname: Gorban, Vadym
  organization: Oles Honchar Dnipro National University, Nauky Av., 72, Dnipro 49045, Ukraine
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  givenname: Oleksandr
  surname: Kotovych
  fullname: Kotovych, Oleksandr
  organization: Oles Honchar Dnipro National University, Nauky Av., 72, Dnipro 49045, Ukraine
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  givenname: Oleh
  surname: Didur
  fullname: Didur, Oleh
  organization: Oles Honchar Dnipro National University, Nauky Av., 72, Dnipro 49045, Ukraine
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  givenname: Julia
  surname: Poleva
  fullname: Poleva, Julia
  organization: Florida Institute of Technology, 150 West University Boulevard, Melbourne, FL 3290, USA
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Keywords Black soils
Humipedon
Earthworm casts
Land use management
Humus state
Forest soils
Agroforestry
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Snippet Chernozems of the low-intensity land use systems of the steppe zone of Ukraine are an important factor of sustainable development, contributing to the...
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StartPage e00988
SubjectTerms Agroforestry
Black soils
Earthworm casts
Forest soils
Humipedon
Humus state
Land use management
Title Humus forms, earthworm bioturbation and soil organic carbon storage in Chernozems of the low-intensity land use of steppe zone of Ukraine
URI https://dx.doi.org/10.1016/j.geodrs.2025.e00988
Volume 42
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