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United States Department of Agriculture

Agricultural Research Service

Title: Composition of Residue from Sugarcane and Related Species

Authors
item Lingle, Sarah
item Tew, Thomas
item HALE, ANNA
item Cobill, Robert

Submitted to: Agronomy Society of America, Crop Science Society of America, Soil Science Society of America Meeting
Publication Type: Abstract Only
Publication Acceptance Date: April 1, 2008
Publication Date: N/A

Technical Abstract: In Louisiana, a facility near Jennings will produce cellulosic ethanol from sugarcane (Saccharum spp. hybrids) bagasse and “energy canes”. This study was done to obtain basic information on the composition of the cell wall residue left after expressing the juice in different Saccharum genotypes. Four commercial cultivars, five S. officinarum genotypes, and 22 wild S. spontaneum genotypes were grown in 38-L cans during the spring and summer of 2006. In August 2006, plants were harvested by cutting at soil level, chipped, and juice was expressed from a 1000-g sample. Total soluble solids of the juice were determined by Brix refractometry. The remaining fiber cake was dried and ground. Cell wall composition was determined by sequential detergent extraction. Remaining residue was combusted to determine ash content. The commercial and S. officinarum genotypes had higher soluble solids in the juice, and lower fiber content than the S. spontaneum genotypes. The fiber cakes ranged from 70 to 240 g kg-1 solubles, 260 to 350 g kg-1 hemicellulose, 410 to 550 g kg-1 cellulose, 40 to 140 g kg-1 acid-detergent lignin, and 0 to 24 g kg-1 ash. The amount of soluble material in the fiber cake was also higher in the commercial and S. officinarum genotypes. There were significant differences among genotypes in hemicellulose and cellulose contents, but the differences were not consistent between S. officinarum and S. spontaneum. Differences in lignin and ash content were not significant among the genotypes. Reducing lignin content has been suggested as one means of improving lignocellulosic biomass for biofuel production, but reducing lignin in sugarcane may be more difficult because of the lack of natural variability in lignin content among the genotypes.

Last Modified: 7/28/2014
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