Pollutants generated by the biodegradation of livestock carcasses have the potential for contamination of the environment. Hence, livestock mortalities burial has been banned in the EU. In spite of the hazard, research on the biodegradation of livestock carcasses is lacking. In this study, five lysimeters were used to evaluate the enhanced biodegradation of organic materials in livestock mortalities burial. Lysimeter 1(control), lysimeter 2(grinding of livestock carcass), lysimeter 3(anaerobic microorganisms), lysimeter 4(Corynebacterium glutamicum in anaerobic condition) and lysimeter 5(Corynebacterium glutamicum in aerobic condition) were operated with temperature control. The degradation efficiencies of livestock carcass in the lysimeters were evaluated based on total organic carbon balance. The degradation efficiencies of ground livestock carcass were 1.9 times more than those of livestock carcass without grinding. In anaerobic condition, anaerobic microorganisms were more effective compared with Corynebacterium glutamicum on the biodegradation of livestock carcasses. However, the degradation efficiencies with Corynebacterium glutamicum in aerobic condition were significantly influenced on the biodegradation of livestock carcasses. Even if it would be helpful to degrade the livestock carcass in aerobic condition in terms of stabilization, potential risks on the environment by odor and bioaerosol must be solved.