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Content of soil organic carbon and labile fractions depend on local combinations of mineral-phase characteristics

  • Soil organic matter (SOM) is an indispensable component of terrestrial ecosystems. Soil organic carbon (SOC) dynamics are influenced by a number of well-known abiotic factors such as clay content, soil pH, or pedogenic oxides. These parameters interact with each other and vary in their influence on SOC depending on local conditions. To investigate the latter, the dependence of SOC accumulation on parameters and parameter combinations was statistically assessed that vary on a local scale depending on parent material, soil texture class, and land use. To this end, topsoils were sampled from arable and grassland sites in south-western Germany in four regions with different soil parent material. Principal component analysis (PCA) revealed a distinct clustering of data according to parent material and soil texture that varied largely between the local sampling regions, while land use explained PCA results only to a small extent. The PCA clusters were differentiated into total clusters that contain the entire dataset or major proportions of it and local clusters representing only a smaller part of the dataset. All clusters were analysed for the relationships between SOC concentrations (SOC %) and mineral-phase parameters in order to assess specific parameter combinations explaining SOC and its labile fractions hot water-extractable C (HWEC) and microbial biomass C (MBC). Analyses were focused on soil parameters that are known as possible predictors for the occurrence and stabilization of SOC (e.g. fine silt plus clay and pedogenic oxides). Regarding the total clusters, we found significant relationships, by bivariate models, between SOC, its labile fractions HWEC and MBC, and the applied predictors. However, partly low explained variances indicated the limited suitability of bivariate models. Hence, mixed-effect models were used to identify specific parameter combinations that significantly explain SOC and its labile fractions of the different clusters. Comparing measured and mixed-effect-model-predicted SOC values revealed acceptable to very good regression coefficients (R2=0.41–0.91) and low to acceptable root mean square error (RMSE = 0.20 %–0.42 %). Thereby, the predictors and predictor combinations clearly differed between models obtained for the whole dataset and the different cluster groups. At a local scale, site-specific combinations of parameters explained the variability of organic carbon notably better, while the application of total models to local clusters resulted in less explained variance and a higher RMSE. Independently of that, the explained variance by marginal fixed effects decreased in the order SOC > HWEC > MBC, showing that labile fractions depend less on soil properties but presumably more on processes such as organic carbon input and turnover in soil.

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Metadaten
Verfasserangaben:Malte Ortner, Michael Seidel, Sebastian Semella, Thomas Udelhoven, Michael Vohland, Sören Thiele-Bruhn
URN:urn:nbn:de:hbz:385-1-18621
DOI:https://doi.org/10.5194/soil-8-113-2022
Titel des übergeordneten Werkes (Englisch):Soil
Verlag:Copernicus Publications
Verlagsort:Göttingen
Dokumentart:Wissenschaftlicher Artikel
Sprache:Englisch
Datum der Fertigstellung:24.02.2022
Datum der Veröffentlichung:24.02.2022
Veröffentlichende Institution:Universität Trier
Beteiligte Körperschaft:The publication was funded by the Open Access Fund of Universität Trier and the German Research Foundation (DFG)
Datum der Freischaltung:04.05.2022
GND-Schlagwort:Ausgangsgestein; Boden; Humus; Mineral; Trier
Jahrgang:2022
Ausgabe / Heft:Band 8 (2022)
Seitenzahl:19
Erste Seite:113
Letzte Seite:131
Institute:Fachbereich 6 / Raum- und Umweltwissenschaften
DDC-Klassifikation:9 Geschichte und Geografie / 90 Geschichte / 900 Geschichte und Geografie
Lizenz (Deutsch):License LogoCC BY: Creative-Commons-Lizenz 4.0 International

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