A Review on Organic Composting Technology by using Different Microorganisms

A Review on Organic Composting Technology by using Different Microorganisms M. Kumaresan K. Khanchana M. Anbarasu

Composting is a technological waste management method in which organic material is broken down and stabilized into a biodegradable mixture in the presence of aerobic microbial activities, ultimately becoming compost. The breakdown of organic matter has garnered significant interest recently owing to its ecofriendly approaches that prevent further pollution of the environment. The process of breaking down of organic matter into carbon dioxide, heat, water, humus, and compost, a rather stable end organic product is facilitated by microorganisms such bacteria, fungus, and actinomycetes. Microorganisms break down the intricate lignin, cellulose, and hemicellulose molecules during the composting process. The content of composite mixtures and temperature fluctuations throughout the composting process have an impact on the existence of various microorganisms. The temperature rises at the start of compression due to a large increase in microbial activity. The fungi that are most active during the compost maturation process take over from the initial dominance of bacteria. The most significant variables affecting the success of decomposition are the C/N ratio, temperature, humidity, particle size of the substrate, pH, oxygen content, and microorganisms. The final stable product, known as compost, is a sustainable fertilizer and soil improver that contains humified fraction similar to humus. It may be used to increase the efficacy of fertilizers, improve the physico-chemical features of the soil, and encourage crop growth. Humic materials enhance soils with minerals that are essential to plant growth, including calcium, phosphorus, potassium, and nitrogen. Additionally, composting, which recycles byproducts and is based on the circular economy model, is a clever and sustainable way to lessen the harmful environmental effects associated with waste management.
2024 2024 S503 S512 10.53550/EEC.2024.v30i04s.082 https://www.envirobiotechjournals.com/issues/EEC/Vol30JulySupplIssue2024/EEC-82.pdf https://www.envirobiotechjournals.com/issues/EEC/Vol30JulySupplIssue2024/EEC-82.pdf