Authors: Amitesh Kumar Patel, Roshni Verma
Abstract: – Municipal landfills are one of the largest contributors to greenhouse gas emissions and long-term environmental degradation due to the slow degradation of organic waste. Enhancing microbial activity within these landfills is a promising approach for accelerating the decomposition process and reducing environmental burdens. This study explores the application of bio-stimulants—substances that promote microbial activity—within landfill environments to boost the metabolic rate and diversity of native microbial communities. By introducing bioavailable carbon, nitrogen, and trace minerals, microbial consortia involved in anaerobic digestion can be stimulated to more effectively degrade organic matter and stabilize landfill content. This paper examines various classes of bio-stimulants, including humic acids, molasses, compost tea, and amino acid-based formulations, and their impacts on microbial respiration, gas production (e.g., methane and CO₂), and leachate quality. The results suggest that targeted bio-stimulant application can lead to enhanced microbial enzymatic activity and accelerated waste mineralization, thereby promoting more efficient landfill management. This research contributes to the development of sustainable landfill technologies by highlighting the biochemical interactions and ecological benefits of microbial stimulation through natural amendments. The findings serve as a foundation for future bioengineering practices aimed at transforming traditional landfill sites into active bioreactors for organic waste treatment.
DOI: http://doi.org/10.5281/zenodo.16872527
