Labile and Stable Fractions of Organic Carbon in a Soil Catena (the Central Forest Nature Reserve, Russia)

The composition of soil organic carbon (SOC) is an important soil quality indicator. We investigated the effect of site-specific soil-forming factors on plant debris and SOC properties along a soil catena with Retisols and Stagnosols in a mixed coniferous–deciduous forest. We examined sites at the s...

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Veröffentlicht in:	Forests 2023-07, Vol.14 (7), p.1367
Hauptverfasser:	Enchilik, Polina, Aseyeva, Elena, Semenkov, Ivan
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Sprache:	eng
Schlagworte:	Aeration Carbon Chemical properties Coniferous forests Deciduous forests Decomposition Ecosystems Environmental aspects Forest reserves Forests Humus Lithology Litter Microorganisms Nature reserves Organic carbon Organic soils Plant debris Rain Soil aeration Soil formation Soil horizons Soil properties Soil quality Soils Vegetation
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creator	Enchilik, Polina Aseyeva, Elena Semenkov, Ivan
description	The composition of soil organic carbon (SOC) is an important soil quality indicator. We investigated the effect of site-specific soil-forming factors on plant debris and SOC properties along a soil catena with Retisols and Stagnosols in a mixed coniferous–deciduous forest. We examined sites at the summit and middle slope positions with relatively well-aerated soils and sites at footslope positions with waterlogged soils. The concentrations of labile and stable pools of SOC were determined using the method of three-stage chemodestruction. The degree of litter decomposition was calculated, and ash content was determined in the folic and histic soil horizons. The results of our study showed that SOC mostly accumulated in the forest litter and histic horizons of Stagnosols at the footslope positions. The forest litter, folic, and histic horizons were dominated by labile carbon. Equal concentrations of labile and stable carbon were typical of the mineral horizons. The location of the soil in the catena affects the partition and characteristics of SOC in umbric and albic soil horizons. SOC was found to be more stable in the soils at the footslope positions compared to the soils in other locations, because of the lower decomposition of plant remains. Larger stocks of organic carbon, including labile carbon, were restricted to the footslope catena positions.
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The location of the soil in the catena affects the partition and characteristics of SOC in umbric and albic soil horizons. SOC was found to be more stable in the soils at the footslope positions compared to the soils in other locations, because of the lower decomposition of plant remains. 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source	MDPI - Multidisciplinary Digital Publishing Institute; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects	Aeration Carbon Chemical properties Coniferous forests Deciduous forests Decomposition Ecosystems Environmental aspects Forest reserves Forests Humus Lithology Litter Microorganisms Nature reserves Organic carbon Organic soils Plant debris Rain Soil aeration Soil formation Soil horizons Soil properties Soil quality Soils Vegetation
title	Labile and Stable Fractions of Organic Carbon in a Soil Catena (the Central Forest Nature Reserve, Russia)
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