Decomposition of Agriculture Farm Wastes by Cellulolytic Bacteria
B. P. Bahatkar
Department of Botany, Dr. Panjabrao Deshmukh Krishi Vidhyapeeth, Akola, Maharashtra, India.
S. J. Gahukar
Department of Botany, Dr. Panjabrao Deshmukh Krishi Vidhyapeeth, Akola, Maharashtra, India.
A. A. Akhare
Department of Botany, Dr. Panjabrao Deshmukh Krishi Vidhyapeeth, Akola, Maharashtra, India.
Y. V. Ingle
Department of Plant Pathology, Dr. Panjabrao Deshmukh Krishi Vidhyapeeth, Akola, Maharashtra, India.
D. R. Rathod
Department of Botany, Dr. Panjabrao Deshmukh Krishi Vidhyapeeth, Akola, Maharashtra, India.
A. M. Charpe
Department of Plant Pathology, Dr. Panjabrao Deshmukh Krishi Vidhyapeeth, Akola, Maharashtra, India.
*Author to whom correspondence should be addressed.
Abstract
The most important component of the greatest material flow in the biosphere is the microbial consumption of cellulose. Despite the abundance of cellulase manufacturers, there aren't enough microorganisms that can effectively create enough of the enzyme to effectively break down cellulose into fermentable compounds. Despite the fact that bacteria have a very high level of natural variety and the potential to manufacture stable enzymes, little attention has been paid to their ability to produce cellulase. The present study aimed at the isolation and selection of cellulose degrading bacteria isolated from different samples for agriculture waste decomposition. Bacterial cultures were applied on agriculture waste material comprising soybean straw, pigeonpea straw; wheat straw and cotton stalk to investigate their percentage loss in weight. Among all the cultures, CDB 19 has shown the highest weight loss of the substrate (99.99%) followed by CDB 20 (99%), CDB5 (94.2%), CDB2 (92.8%) and CDB14 (88.6%). It was also observed that maximum weight loss of cotton straw (99.99%) was recorded by mixed culture followed by Pigeonpea straw and Soybean straw, while Wheat straw recorded minimum weight loss at 60 days of decomposition.
Keywords: Agricultural waste, cellulase producers, cellulose degrading bacteria (CBD), decomposition