Effect of particle size and aeration on the biological delignification of corn straw using Trametes sp. 44

Effect of particle size and aeration on the biological delignification of corn straw using Trametes sp. 44

Straw is an agricultural byproduct that can be utilized to obtain bioethanol without affecting animal or human sustinence. This process involves recovering the sugars and reducing the lignin content present through the use of ligninolytic fungi such as the basidiomycete Trametes sp. 44. Fermentation...

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Bibliographic Details
Published in:Bioresources Vol. 7; no. 1; pp. 327 - 344
Main Authors: Quintanar Gómez, Samuel, Arana-Cuenca, Ainhoa, Mercado Flores, Yuridia, Gracida Rodríguez, Jorge Noel, Téllez-Jurado, Alejandro
Format: Journal Article
Language:English
Published: North Carolina State University 16-11-2011
Subjects:
Delignification
Particle size
Trametes
Velocity of aeration
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Summary:Straw is an agricultural byproduct that can be utilized to obtain bioethanol without affecting animal or human sustinence. This process involves recovering the sugars and reducing the lignin content present through the use of ligninolytic fungi such as the basidiomycete Trametes sp. 44. Fermentation was carried out using particle sizes 4 (4.76 mm, No. 4 sieve) and 8 (2.30 mm, No. 8 sieve), and two velocities of airflow (100 and 200 mL/min). Study results showed that particle size affected the production of hydrolytic enzymes, as particle size 8 favored the expression of cellulases and hemicellulases. In addition, both aeration and particle size affected the expression of ligninolytic enzymes, as it was observed that with particle size 8 and airflow of 200 mL/min, the study detected 63 AU/mL of LiP and 11 AU/mL of MnP. In the case of laccase, the enzymatic activity detected reached 220 AU/mL using particle size 8 and an airflow velocity of 200 mL/min. Statistical analysis indicated that the treatment that produced the highest biological delignification occurred when Trametes sp. 44 was grown on corn straw at particle size 4 and airflow of 100 mL/min, conditions that yielded 34% delignification at day 12 of fermentation.
ISSN:1930-2126
1930-2126
DOI:10.15376/biores.7.1.327-344