Chemical composition, cell wall features and degradability of stem, leaf blade and sheath in untreated and alkali-treated rice straw

Chemical composition, cell wall features and degradability of stem, leaf blade and sheath in untreated and alkali-treated rice straw

Three dominant morphological fractions (i.e. leaf blade (LB), leaf sheath (LS) and stem) were analysed for chemical composition and ruminal degradability in three rice straw varieties. In one variety treated with alkali, cell wall features were also characterized using Fourier Transform Infrared Spe...

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Main Authors: E. Ghasemi, G.R. Ghorbani, M. Khorvash, M.R. Emami, K. Karimi
Format: Article
Language:English
Published: Elsevier 2013-01-01
Series:Animal
Subjects:
morphological fractions
silica
FTIR spectra
SEM
alkali treatment
Online Access:http://www.sciencedirect.com/science/article/pii/S1751731113000256
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spelling doaj-4233f43e5a924c33a3050dd9721a9fd02021-06-06T04:48:41ZengElsevierAnimal1751-73112013-01-017711061112Chemical composition, cell wall features and degradability of stem, leaf blade and sheath in untreated and alkali-treated rice strawE. Ghasemi0G.R. Ghorbani1M. Khorvash2M.R. Emami3K. Karimi4Department of Animal Science, Isfahan University of Technology, Isfahan 84156-83111, IranDepartment of Animal Science, Isfahan University of Technology, Isfahan 84156-83111, IranDepartment of Animal Science, Isfahan University of Technology, Isfahan 84156-83111, IranDepartment of Clinical Sciences, Veterinary Surgery Division, Ferdowsi University of Mashhad, Mashhad 91779-48974, IranDepartment of Chemical Engineering, Isfahan University of Technology, Isfahan 84156-83111, IranThree dominant morphological fractions (i.e. leaf blade (LB), leaf sheath (LS) and stem) were analysed for chemical composition and ruminal degradability in three rice straw varieties. In one variety treated with alkali, cell wall features were also characterized using Fourier Transform Infrared Spectroscopy (FTIR) and Scanning Electron Microscopy. The highest concentrations of cell wall carbohydrates (hemicellulose and cellulose) were observed in LS, whereas the highest concentrations of non-fibre (silica, phenolic compounds and CP) and lignin were recorded for LB. The stem had the lowest silica and hemicellulose contents but intermediate levels of other components. In terms of ruminal degradability, stem ranked higher than LB, which was followed by LS. Hemicellulose was found to be less degradable than either dry matter or cellulose in all the three fractions investigated. FTIR results indicated that the highest levels of hydrogen bonding, esterification and crystallinity within the cell wall components belonged to LS. In the alkaline treatment, these indices decreased to a larger extent for leaf fractions and a greater improvement was achieved in the degradability of LB and LS compared with that of stem. In the 24-h ruminal incubation, the silicified layer of epidermis and the underlying cell walls showed a rigid structure in the control fractions, whereas the treatment with NaOH resulted in crimping of the silicified cuticle layer and the loss of integrity in cell structure. Despite the highest silica and lignin contents observed in LB, LS showed the lowest degradability, which might be due to its high level of hydrogen bonding, crystallinity and esterification within its cell wall components as well as its high hemicellulose content.http://www.sciencedirect.com/science/article/pii/S1751731113000256morphological fractionssilicaFTIR spectraSEMalkali treatment
collection DOAJ
language English
format Article
sources DOAJ
author E. Ghasemi
G.R. Ghorbani
M. Khorvash
M.R. Emami
K. Karimi
spellingShingle E. Ghasemi
G.R. Ghorbani
M. Khorvash
M.R. Emami
K. Karimi
Chemical composition, cell wall features and degradability of stem, leaf blade and sheath in untreated and alkali-treated rice straw
Animal
morphological fractions
silica
FTIR spectra
SEM
alkali treatment
author_facet E. Ghasemi
G.R. Ghorbani
M. Khorvash
M.R. Emami
K. Karimi
author_sort E. Ghasemi
title Chemical composition, cell wall features and degradability of stem, leaf blade and sheath in untreated and alkali-treated rice straw
title_short Chemical composition, cell wall features and degradability of stem, leaf blade and sheath in untreated and alkali-treated rice straw
title_full Chemical composition, cell wall features and degradability of stem, leaf blade and sheath in untreated and alkali-treated rice straw
title_fullStr Chemical composition, cell wall features and degradability of stem, leaf blade and sheath in untreated and alkali-treated rice straw
title_full_unstemmed Chemical composition, cell wall features and degradability of stem, leaf blade and sheath in untreated and alkali-treated rice straw
title_sort chemical composition, cell wall features and degradability of stem, leaf blade and sheath in untreated and alkali-treated rice straw
publisher Elsevier
series Animal
issn 1751-7311
publishDate 2013-01-01
description Three dominant morphological fractions (i.e. leaf blade (LB), leaf sheath (LS) and stem) were analysed for chemical composition and ruminal degradability in three rice straw varieties. In one variety treated with alkali, cell wall features were also characterized using Fourier Transform Infrared Spectroscopy (FTIR) and Scanning Electron Microscopy. The highest concentrations of cell wall carbohydrates (hemicellulose and cellulose) were observed in LS, whereas the highest concentrations of non-fibre (silica, phenolic compounds and CP) and lignin were recorded for LB. The stem had the lowest silica and hemicellulose contents but intermediate levels of other components. In terms of ruminal degradability, stem ranked higher than LB, which was followed by LS. Hemicellulose was found to be less degradable than either dry matter or cellulose in all the three fractions investigated. FTIR results indicated that the highest levels of hydrogen bonding, esterification and crystallinity within the cell wall components belonged to LS. In the alkaline treatment, these indices decreased to a larger extent for leaf fractions and a greater improvement was achieved in the degradability of LB and LS compared with that of stem. In the 24-h ruminal incubation, the silicified layer of epidermis and the underlying cell walls showed a rigid structure in the control fractions, whereas the treatment with NaOH resulted in crimping of the silicified cuticle layer and the loss of integrity in cell structure. Despite the highest silica and lignin contents observed in LB, LS showed the lowest degradability, which might be due to its high level of hydrogen bonding, crystallinity and esterification within its cell wall components as well as its high hemicellulose content.
topic morphological fractions
silica
FTIR spectra
SEM
alkali treatment
url http://www.sciencedirect.com/science/article/pii/S1751731113000256
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AT grghorbani chemicalcompositioncellwallfeaturesanddegradabilityofstemleafbladeandsheathinuntreatedandalkalitreatedricestraw
AT mkhorvash chemicalcompositioncellwallfeaturesanddegradabilityofstemleafbladeandsheathinuntreatedandalkalitreatedricestraw
AT mremami chemicalcompositioncellwallfeaturesanddegradabilityofstemleafbladeandsheathinuntreatedandalkalitreatedricestraw
AT kkarimi chemicalcompositioncellwallfeaturesanddegradabilityofstemleafbladeandsheathinuntreatedandalkalitreatedricestraw
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