http://www.cnr.it/ontology/cnr/individuo/prodotto/ID221528
Pyrolysis-Gas chromatography to evaluate the organic matter quality of different degraded soil ecosystems (Contributo in volume (capitolo o saggio))
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- Pyrolysis-Gas chromatography to evaluate the organic matter quality of different degraded soil ecosystems (Contributo in volume (capitolo o saggio)) (literal)
- Anno
- 2012-01-01T00:00:00+01:00 (literal)
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Macci, Cristina; Doni, Serena; Peruzzi, Eleonora; Ceccanti, Brunello; Masciandaro, Grazia (2012)
Pyrolysis-Gas chromatography to evaluate the organic matter quality of different degraded soil ecosystems
InTech, Rijeka (Croazia) in Advanced gas chromatography-progress in agricultural, biomedical and industrial application, 2012
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- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#autori
- Macci, Cristina; Doni, Serena; Peruzzi, Eleonora; Ceccanti, Brunello; Masciandaro, Grazia (literal)
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- ID_PUMA: /cnr.ise/2012-A1-007 (literal)
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- Advanced gas chromatography-progress in agricultural, biomedical and industrial application (literal)
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- Pyrolysis-Gas chromatography to evaluate the organic matter quality of different degraded soil ecosystems (literal)
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- 978-953-51-0298-4 (literal)
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- Abstract
- In order to understand the temporal dynamics of SOM in soil ecosystems, it is therefore vital to characterize soil organic carbon quantity and quality. Various analytical methodologies, such as infrared, ultraviolet-visible, nuclear magnetic resonance spectroscopy, potentiometric titration, pyrolysis, electrophoresis, acid/alkali fractionation, have been used to study SOM. These techniques have been used either alone or in combination with traditional fractionation and purification methods of acid/alkali soluble HS. However, these methodologies may not always reflect native SOM, due to inevitable analytical manipulations and also, sometimes, to a subjective interpretation of the results. Among these techniques, pyrolysis-gas chromatography (Py-GC) is a technique capable of analysing native SOM, both in bulk soil (without manipulation), and in sodium pyrophosphate extract, considered the favoured solution to extract humic organic matter from soil The results obtained by PY-GC carried out on the bulk soil and humic extract of several European sites, characterized by different management practices, permitted to draw these final considerations: i:Mineralization indices N/O and O/Y resulted the pyrolytic parameters that better discriminate among the different soils, being involved in the dynamics of labile organic matter, linked to microbial metabolism, and pseudo-stable matter, related to the humic fraction. ii. The pyrolysis on the humic extract often evidenced information hidden by the analysis carried out on the bulk soil. In particular, the pyrolysis on the pyrophosphate extract permitted to obtain clearer information on the condensed aromatic nucleus of humic substances. iii. Even if the analysis on soil as such (bulk) and on soil humic extracts gave each specific information on the quality of the organic matter; the scientific details obtained from the pyrophosphate extract agreed with those resulted analysing the bulk soil, meaning that this kind of extract does not alter the chemical properties of the soil organic matter. Finally, it is possible to conclude that the PY-GC can be used as a quick and general reproducible technique to make a qualitative study of the chemico-structural characteristics of soil organic matter turnover related to biological activity (bulk soil), and of the more stable humic fraction (pyrophosphate extract) in soils under different anthropogenic and natural pressures. Further researches could involve the study of the link between the chemico-structural properties of the humic fraction and their capability to protect enzyme in biologically active form (literal)
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