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B. Tableau, NO3 et N-NH4 obtenus sur les fractions inférieures à 10 mm (10 mm) et supérieures à 10 mm (maille usine) des composts industriels à 3, 4 et 6 mois de compostage

B. Tableau, Principales caractéristiques agronomiques (autres que C et N) Compost Age pH CaCO3 (total) P2O5 (Olsen) P2O5 (total) Ca Mg K Na g.kg-1 g

C. Tableau, 1 : Résultat du test PLSD Fischer (5%) sur les résultats de minéralisation du carbone au cours d'incubations de mélanges sol-compost-cas des composts industriels. S = différence significative

L. Résidu and A. Om2, (O-H aliphatiques) que le résidu NDF, qui peut être due à une diminution générale d'intensité conduisant à une diminution de la surface de recouvrement et rendant les pics plus visibles Une autre hypothèse consiste à considérer les deux pics séparément, la vibration à 2930 cm -1 étant due aux vibrations des liaisons CH des asymétriques CH2-, et l'absorption à 2850 cm -1 étant due aux vibrations des liaisons CH des symétriques CH2-. L'extraction des aliphatiques symétriques plus solubles entraînerait la diminution de l'épaulement visible sur le spectre du résidus NDF

. Le-maintien-de-bandes-d, absorption dans la région organique situées autour de 1650 cm -1 mettent en évidence la présence de composés aromatiques (C=O, C=C) Dans le cas de R3, la présence de composés aromatiques peut également expliquer l'absorption à 780 cm -1 . La baisse de l'intensité à 1050 cm -1 met en évidence l'extraction des polysaccharides les plus résistant

E. Les-tableaux, 2 et E.3 donnent les teneurs en fraction soluble, hémicellulose, cellulose, et lignine, obtenues par fractionnement Van Soest sur les composts de laboratoire échantillonnés à 0

E. Tableau, dans la matière organique des composts de laboratoire à 0, 4, 8 et 12 semaines de compostage. Résultats exprimées en pour-cent de la matière organique totale (MOT) des composts, Concentrations en cellulose brute, ou cellulose Weende (CEW)