In the present study, twenty seven cellulose-degrading bacteria (CDB) were isolated from various organic manures and their cellulolytic activities were determined. The bacterial isolate CDB-26 showed the highest cellulolytic index, released 0.507 ± 0.025 mg/ml glucose and produced 0.196 ± 0.014 IU/ml cellulase enzyme under in vitro conditions. Biochemically, all the 27 isolates showed difference in the 6 biochemical tests performed. Further, all the 27 CDB isolates were subjected to various plant growth-promoting activities, and all CDB strains were positive for IAA production, GA3 production and siderophore production, whereas 19 strains were positive for ACC deaminase activity, 21 strains showed NH3 production and 19 strains were positive for HCN production. Out of 27 CDB isolates, 18 isolates were able to solubilize phosphate, 21 isolates were able to solubilize potash and 10 CDB isolates were found positive for silica solubilization. The molecular diversity among different CDB isolates was studied through ARDRA and demonstrated very high genetic diversity among these bacteria. The in vitro cellulose-degradation potential of these CDB isolates using vegetable waste as substrate were also assessed, and the 3 CDB isolates viz. Serratia surfactantfaciens (CDB-26), Stenotrophomonas rhizophila (CDB-16) and Pseudomonas fragi (CDB-5) showed the highest cellulose-degrading potential under in vitro conditions. Hence, the cellulolytic microbes isolated in the present study could be used for effective bioconversion of plant biomasses into enriched compost.