Carbon stabilization in soil aggregates has been proposed as an important mechanism for carbon sequestration in agricultural soils. However, few studies have investigated how long-term strategies for accumulating C in the soil (e.g. organic fertilizers) can affect humic substance composition in aggregate-size fractions. The aim of this work was to investigate the effects of long-term application of farmyard manure (FYM) and mineral (MIN) fertilization on the humic carbon (HC) chemical structure extracted from macroaggregates (2000-250μm), microaggregates (53-250 μm) and silt-clay (<53 μm) fractions of two different soils (clay and peaty) by using d13C, CP MAS 13C NMR and DRIFT analyses. Results showed that FYM had improved the HC concentration compared with the unfertilized and MIN fertilization. In clay soil, MIN fertilization led to a significantly heavier isotope 13 C enrichment in the silt-clay than macro and microaggregate fractions, suggesting that HC in this fraction was the oldest and most stabilized. This was not so evident in peaty soil, where the HC was probably in an early stage of the humification process. In addition, the HC structure changed in both soils as a consequence of the treatments. FYM amendment caused a decrease in O, N-alkyl-C and alkyl C from macroaggregate to silt-clay fractions, suggesting an advanced state of humic component degradation. However, FYM led to a considerably positive effect on the aromatic C content in both soils. This effect was magnified in the microaggregates of clay soil. These results revealed that the structural changes of humic C in different soil aggregates make it possible to understand the effects of mineral and organic fertilization on cultivated soils

Simonetti G., Francioso O., Nardi S., Berti A., Brugnoli E., Lugato E., et al. (2012). Characterization of humic carbon in aggregate soil fractions in a long-term experiment with manure and mineral fertilization. SOIL SCIENCE SOCIETY OF AMERICA JOURNAL, 76, 880-890 [10.2136/sssaj2011.0243].

Characterization of humic carbon in aggregate soil fractions in a long-term experiment with manure and mineral fertilization

FRANCIOSO, ORNELLA;
2012

Abstract

Carbon stabilization in soil aggregates has been proposed as an important mechanism for carbon sequestration in agricultural soils. However, few studies have investigated how long-term strategies for accumulating C in the soil (e.g. organic fertilizers) can affect humic substance composition in aggregate-size fractions. The aim of this work was to investigate the effects of long-term application of farmyard manure (FYM) and mineral (MIN) fertilization on the humic carbon (HC) chemical structure extracted from macroaggregates (2000-250μm), microaggregates (53-250 μm) and silt-clay (<53 μm) fractions of two different soils (clay and peaty) by using d13C, CP MAS 13C NMR and DRIFT analyses. Results showed that FYM had improved the HC concentration compared with the unfertilized and MIN fertilization. In clay soil, MIN fertilization led to a significantly heavier isotope 13 C enrichment in the silt-clay than macro and microaggregate fractions, suggesting that HC in this fraction was the oldest and most stabilized. This was not so evident in peaty soil, where the HC was probably in an early stage of the humification process. In addition, the HC structure changed in both soils as a consequence of the treatments. FYM amendment caused a decrease in O, N-alkyl-C and alkyl C from macroaggregate to silt-clay fractions, suggesting an advanced state of humic component degradation. However, FYM led to a considerably positive effect on the aromatic C content in both soils. This effect was magnified in the microaggregates of clay soil. These results revealed that the structural changes of humic C in different soil aggregates make it possible to understand the effects of mineral and organic fertilization on cultivated soils
2012
Simonetti G., Francioso O., Nardi S., Berti A., Brugnoli E., Lugato E., et al. (2012). Characterization of humic carbon in aggregate soil fractions in a long-term experiment with manure and mineral fertilization. SOIL SCIENCE SOCIETY OF AMERICA JOURNAL, 76, 880-890 [10.2136/sssaj2011.0243].
Simonetti G.; Francioso O.; Nardi S.; Berti A.; Brugnoli E.; Lugato E.; Morari F.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/110905
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