期刊
WORLD JOURNAL OF MICROBIOLOGY & BIOTECHNOLOGY
卷 16, 期 6, 页码 507-512出版社
KLUWER ACADEMIC PUBL
DOI: 10.1023/A:1008966205306
关键词
acetic acid production; agricultural residues; anaerobic fermentation; biomass to acetic acid; direct microbial conversion of cellulose
Clostridium lentocellum SG6 fermented various pure crystalline cellulosic materials efficiently with maximum acetic acid yield (gram acetic acid/gram substrate) of 0.67, at low substrate (8 g l(-1)) concentration. The strain grew poorly on crude biopolymers but fermented them easily after alkali treatment, when grown with 8 g substrate l(-1) concentration of alkali-extracted cotton straw (AECS), paddy straw (AEPS) and sorghum stover (AESS) etc. The acetic acid to substrate (A/S) ratios were similar to those obtained with pure cellulosic materials. An increase in substrate concentration led to a decreased A/S ratio and a decreased percentage of substrate degraded. At high substrate concentration of 75 g filter paper l(-1), the strain SG6 converted 63.2 g filter paper into 31.28 g acetic acid l(-1). At 100 g l(-1) concentrations, AECS and AEPS served as the best substrates for acetic acid production when compared with other biopolymers. A maximum amount of 30.98 and 30.86 g acetic acid was produced from 70.6 g AEPS and 70.1 g AESS l(-1) of medium by strain SG6, respectively. Acetic acid production of 0.67 g g(-1) pure cellulose (Whatman No. 1 filter paper), 0.63 g g(-1) of alkali-treated cotton straw (AECS) are the highest among the cellulolytic bacteria reported so far in mono culture fermentations with pure and native cellulosic materials.
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