RESUMO
AIMS: Investigate the impact of highly adapted bacterial strains and their ability in waste degradation under a wide range of temperatures. METHODS AND RESULTS: Bacteria isolated from soil and food waste were grown in various media under fluctuated temperatures. After screening for organic compound degradation, the seven strongest bacterial strains have been selected for further experiments. Their enzyme activities were expressed in terms of the size of the hydrolysis zone in a wide temperature range of 2·5-70°C. The enzyme production assay was carried out for each protease, cellulase and amylase. The waste degradation was determined with a maximum 80% decrease in the volume of food waste in 21 days compared to the control in lab scale with enriched bacterial cultures and soil bacteria as additives at room temperature around 18-20°C. CONCLUSION: These seven bacteria are promising candidates for food waste biodegradation in composting especially in the winter without heating expense for maintaining ambient temperature. SIGNIFICANCE AND IMPACT OF THE STUDY: It is necessary to coax the uncultured bacteria from the various environments into the laboratory for investigating their valuable functions. Herein, using enrichment culture of consortium and additive of soil has illustrated the significant mean in food waste degradation.