Analysis of Chemical Constituents Distribution of Moso Bamboo Fiber Cell Wall Based on Raman Spectra

被引：0

作者：

Wei P. ^{[1
]}

Yang S. ^{[1
]}

Liu R. ^{[1
]}

An X. ^{[1
]}

Fei B. ^{[1
]}

机构：

[1] International Center for Bamboo and Rattan, Beijing

来源：

Linye Kexue/Scientia Silvae Sinicae | 2018年 / 54卷 / 01期

关键词：

Cell wall; Chemical component; Fiber; Phyllostachys edulis; Raman spectrum;

D O I：

10.11707/j.1001-7488.20180111

中图分类号：

学科分类号：

摘要：

Objective: In order to reveal chemical constituents distribution rule of bamboo fiber cell wall, distribution of some important chemicals within single fiber cell was studied. Method: Six-year-old moso bamboo (Phyllostachys edulis) was chosen and sampled into ultrathin section as research material. High-resolution confocal Raman microscopy was used to collect Raman spectrum of bamboo fiber in situ. The chemical constituents distribution of moso bamboo fiber cell wall was analyzed through Raman imaging technique. Result: S unit and G unit of lignin widely distributed in all layers of wood cell wall, but H unit mainly distributed in layers that close to peripheral region. The distribution pattern of hydroxycinnamic acids was similar to that of H unit, i.e. mainly distributed in peripheral region of cell wall. Cellulose had a relatively even distribution in thick layers, and the concentration of cellulose was higher in thick layers than that of thin layers. Lignin concentration decreased from periphery to central part of a fiber cell, with relative higher value at compound middle lamella, lumen edge as well as interface between two layers which formed local accumulation at those regions. Conclusion: The bamboo fiber cell wall has different chemical composition in radial direction, and cellulose, lignin and hydroxycinnamic acid have different distribution density within different cell wall layers. © 2018, Editorial Department of Scientia Silvae Sinicae. All right reserved.

引用

页码：99 / 104

页数：5

共 23 条

[1] Jiang Z.H., Yu W.J., Yu Y.L., Analysis of chemical components of bamboo wood and characteristic of surface performance, Journal of Northeast Forestry University, 34, 4, pp. 1-2, (2006)
[2] Liu L., Yu Y.M., Lin X.C., Et al., Correlation analysis between mechanical and chemical properties of Pleioblastus amarus culm, J of Zhejiang For Sci & Tech, 26, 2, pp. 19-22, (2006)
[3] Yang S.M., Ren H.Q., Fei B.H., Et al., Lignin distribution in cell wall of bamboo culms(Phyllostachys pubescens and Pseudosasa amabilis), Chem Industry Forest Prod, 30, 5, pp. 19-24, (2010)
[4] Yang S.M., Jiang Z.H., Ren H.Q., Et al., Determination of lignin distribution during ageing of bamboo culms(Phyllostachys pubescens)with visible-light spectrophotometry, Spectrosc Spect Anal, 30, 12, pp. 3399-3404, (2010)
[5] Yang S.M., Liu X.E., Fei B.H., Et al., Main anatomy characteristics in cell wall and lignin distribution of bamboo culms(Pseudosasa amabilis), Scientia Silvae Sinicae, 48, 2, pp. 129-133, (2012)
[6] Zhang Q.S., Guang M.J., Ji W.L., Variation of Moso bamboo chemical compositions during mature growing period, Journal of Nanjing Forestry University: Natural Sciences Edition, 26, 2, pp. 7-10, (2002)
[7] Agarwal U.P., Ralph S.A., FT-Raman spectroscopy of wood: identifying contributions of lignin and carbohydrate polymers in the spectrum of black spruce(Picea mariana), Appl Spectrosc, 51, 11, pp. 1648-1655, (1997)
[8] Amada S., Ichikawa Y., Munekata T., Et al., Fiber texture and mechanical graded structure of bamboo, Composites Part B, 28, 1, pp. 13-20, (1997)
[9] Chang W.J., Chang M.J., Chang S.T., Chemical composition and immunohistological variations of a growing bamboo shoot, J Wood Chemi Techno, 33, 2, pp. 144-155, (2013)
[10] Dixon P.G., Gibson L.J., The structure and mechanics of moso bamboo material, J R Soc Interface, 11, 99, pp. 1-12, (2014)

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