Transformation of some organic matter components in organic soils exposed to drainage

Transformation of some organic matter components in organic soils exposed to drainage

In drained Histosols used as pastures or arable fields the muck-forming process transforms organic soil formations into muck. The rush vegetation (Caricetum acutiformis and Glycerietum maximae) covering Histosols in the organic matter accumulation stage is replaced by meadow vegetation (Molinietalia...

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Bibliographic Details
Published in:Turkish journal of agriculture and forestry Vol. 34; no. 3; pp. 245 - 256
Main Authors: KALISZ, BARBARA, LACHACZ, ANDRZEJ, GLAZEWSKI, ROMAN
Format: Journal Article
Language:English
Published: TÜBİTAK 01-01-2010
Subjects:
arazi ıslahı
carbon
degradation
histosol
Histosols
hot water treatment
humus
karbon
organic soils
organik topraklar
Poland
Polonya
reclamation
sıcak su işlemleri
Soil Science(General)
Soil Water Management
Toprak Bilimi(Genel)
Toprak, Su Yönetimi
yıkılma
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Summary:In drained Histosols used as pastures or arable fields the muck-forming process transforms organic soil formations into muck. The rush vegetation (Caricetum acutiformis and Glycerietum maximae) covering Histosols in the organic matter accumulation stage is replaced by meadow vegetation (Molinietalia order). During sustained drainage mucks are transformed into muck-like formations that contain less than 12% organic carbon. The aim of this study was to report the changes in organic matter initiated by the muck-forming process. Soil organic matter was fractionated into humic-acid carbon, fulvic-acid carbon, and humins. The amount of carbon susceptible to oxidation with KMn$O _4$ was also determined and, based on these results, lability, carbon pool, and management indices were calculated. Additionally, hot-water extractable carbon, corresponding to microbial biomass, was determined. The study's results show that the muck-forming process caused a decrease in organic carbon and the concentration of total nitrogen, indicating a reduction in carbon sequestration in the soils. The humin fraction was predominant in untransformed soils and was positively correlated with clay, total nitrogen, and non-oxidizable carbon. Drainage of Histosols contributed to increasing the solubility of humus compounds. The humification index, and the content of humic and fulvic acids was higher in drained soils. Humic acids and fulvic acids content was 24% and 11%-12% of organic carbon, respectively. Muck formations contained more humic acids than muck-like formations. Higher ΣCHCF:humins ratios were also observed in drained soils. In muck-like formations this ratio was 0.91 (11-fold higher than in reference soils). Drainage contributed to an increase in hot-water extractable carbon. Carbon indices were higher in mucks than in muck-like formations.
Bibliography:TTAR
ISSN:1303-6173
1300-011X
1303-6173
DOI:10.3906/tar-0905-33