Journal
BIODEGRADATION
Volume 22, Issue 5, Pages 1017-1027Publisher
SPRINGER
DOI: 10.1007/s10532-011-9460-6
Keywords
Alkali lignin; Biodegradation; Aspergillus sp strain F-3; GC-MS analysis
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Funding
- National Key Scientific and Technology Project for Water Pollution Treatment [2008 ZX07208-004-2]
- Program for Changjiang Scholars and Innovative Research Team in University [IRT0813]
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A fungus strain F-3 was selected from fungal strains isolated from forest soil in Dalian of China. It was identified as one Aspergillus sp. stain F-3 with its morphologic, cultural characteristics and high homology to the genus of rDNA sequence. The budges or thickened node-like structures are peculiar structures of hyphae of the strain. The fungus degraded 65% of alkali lignin (2,000 mg l(-1)) after day 8 of incubation at 30A degrees C at pH 7. The removal of colority was up to 100% at 8 days. The biodegradation of lignin by Aspergillus sp. F-3 favored initial pH 7.0. Excess acid or alkali conditions were not propitious to lignin decomposing. Addition of ammonium l-tartrate or glucose delayed or repressed biodegradation activities. During lignin degradation, manganese peroxidase (28.2 U l(-1)) and laccase (3.5 U l(-1))activities were detected after day 7 of incubation. GC-MS analysis of biodegraded products showed strain F-3 could convert alkali lignin into small molecules or other utilizable products. Strain F-3 may co-culture with white rot fungus and decompose alkali lignin effectively.
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