Brief overview of microbiological aspects of composting
Pavlina Naskova, Boyka Malcheva, Dragomir Plamenov, Albena Ivanova
Abstract: Recycling and disposal of urban waste is one of the goals set by the European Union. The process of composting, which is a cost-effective and environmentally friendly method of processing organic residues, is considered to be one of the ways to achieve these goals. Composting is a biological oxidation process in which organic residues are broken down by a large group of different microorganisms. The present publication presents a brief overview on the composting of organic residues and the participation of individual groups of microorganisms in this process. The decay of materials during composting follows the general biochemical pathways of any other degradation process. In the composting processes and in the finished compost, non-spore-forming bacteria and bacilli, which are most actively involved in the initial stages of degradation of organic substances, occupy a major share in the composition of the general microflora. The share of actinomycetes and micromycetes, which are generally more active in the final stages of organic matter decomposition, is smaller. The amount of actinomycetes increases with increasing temperature in the composting phases. The biogenicity of compost depends on the type of biodegradable agricultural waste used.
Keywords: compost; microorganisms; organic waste; soil
Citation: Naskova, P., Malcheva, B., Plamenov, D., & Ivanova, A. (2024). Brief overview of microbiological aspects of composting. Bulgarian Journal of Crop Science, 61(1), 68-74 (Bg).
| References: (click to open/close) | Amann, R. I., Binder, B. J., Olson, R. J., Chisholm, S. W., Devereux, R., & Stahl, D. A. (1990). Combination of 16S rRNA-targeted oligonucleotide probes with flow cytometry for analyzing mixed microbial populations, Applied and Environmental Microbiology, vol. 56, pp: 1919–1925.
Antunes, L. P., Martins, L. F., Pereira, R. V., Thomas, A. M., Barbosa, D., Lemos, L. N., Silva, G.M., Moura, L.M., Epamino, G.W., Digiampietri, L.A., Lombardi, K.C., Ramos, P.L., Quaggio, R. B., de Oliveira, J. C., Pascon, R. C., Cruz, J. B., da Silva, A. M., & Setubal, J. C. (2016). Microbial community structure and dynamics in thermophilic composting viewed through metagenomics and metatranscrip¬tomics, Scientific Reports, vol. 6. Art. 38915, pp: 1-13.
Atkinson, C. F., Jones, D. D., & Gauthier, J. J. (1996). Putative anaerobic activity in aerated composts, Jour¬nal of Industrial Microbiology and Biotechnology, 16 (3), pp: 182–188
Chanal, A., Chapon, V., & Benzerara, K. (2006). The desert of Tataouine: an extreme environment that hosts a wide diversity of microorganisms and radio¬tolerant bacteria, Environmental Microbiology, 8 (3), pp: 514-525.
De Gannes, V., Eudoxie, G., & Hickey, W. J. (2013). Prokaryotic successions and diversity in composts as revealed by 454-pyrosequencing, Frontiers in Micro¬biology, vol. 6. Art. 164, pp: 1–9.
Ivankin, A., Pandya, U., & Saraf, M. (2014). Intensifica¬tion of aerobicprocessing of the organic wastes into compost, Composting for Sustainable Agriculture. Sustainable Developmentand Biodiversity / Ed. Ma¬heshwari D. Springer, Cham, vol. 3, pp: 23–42.
Kango, N., Uttam, J., & Ritumbhara, C. (2019) Fungal Enzymes: Sources and Biotechnological Applications. Advancing Frontiers in Mycology & Mycotechnology pp. 515–538.
Kutrovskii, W. N. & Sidorenko, О. D. (2009). Bioconver¬sion of waste from the agro-industrial complex (Ru).
Malcheva, B., Yordanova, M., Borisov, R., Vicheva, T., & Nustorova, M. (2018). Dynamics of microbiological indicators for comparative study of compost variants. The International Conference of the University of Agronomic Science and Veterinary Medicine of Bu¬charest, June 7-9 2018, Bucharest, Romania. Scientific papers-series B-Horticulture, vol. 62, pp: 649-654.
Malcheva, B., Yordanova, M., & Nustorova, M. (2019). Influence of composting on the microbiological activ¬ity of the soil. The International Conference of the University of Agronomic Science and Veterinary Medicine of Bucharest, June 6-8 2019, Bucharest, Ro¬mania. Scientific Papers. Series B, Horticulture. Vol. LXIII, No. 1, pp: 621-625.
Malcheva, B., Naskova, P., Plamenov, D., & Nikolov, D. (2023). Influence of essential oil spearmint (Mentha spicata L.) culture on soil biogenicity of its antimicro¬bial activity against Escherichia coli. The International Conference „Agriculture for life, life for agriculture“, Section Horticulture, 8-10 June 2023, Bucharest, Ro¬mania. Book of Abstract, p. 163.
Мischustin, Е. N. (1972). Microorganisms and agricul¬tural productivity: Science, pp. 342 (Ru).
Naskova, P., Malcheva, B., Yankova, P., & Plamenov, D. (2015). Some chemical and microbiological indexes at soils after a flood in the region of Varna, Bulgaria. International Journal of Research Studies in Science, Engineering and Technology, 2(10), 62-71.
Naskova, P., Malcheva, B., Plamenov, D., & Nikolov, D. (2023). Effect of coriander (Coriandrum sativum L.) essential oil culture on soil biogenesity and determina¬tion of its antimicrobial activity against Escherichia coli. The International Conference „Agriculture for life, life for agriculture“, Section Agronomy, 8-10 June 2023, Bucharest, Romania. Book of Abstract, pp. 124.
Nozhevnikova, A. N., Mironov, V. V., Botchkova, E. A., Litti, Y. V., & Russkova, Y. I. (2019). Composition of a microbial community at different stages of compost¬ing and the prospects for compost production from municipal organic waste. Applied Biochemistry and Microbiology, 55, 199-208.
Ordinance on bio-waste treatment (Adopted by PMS No. 225 of 15.10.2013, promulgated SG No. 92 of 22.10.2013) (Bg).
Sánchez, Ó. J., Ospina, D. A., & Montoya, S. (2017). Compost supplementation with nutrients and microor¬ganisms in composting process, Waste Management, vol. 69, pp: 136–153.
Shpedt, A. Vergeychik, P., Kartavykh, V. (2015). The assessment of the fast-mineralized organic substance of agricultural lands soils in Krasnoyarsk region. Jour¬nal Agrochemistry. Vol 12 pp. 36-43.
Steel, H., & Wim, B. (2012) Biodiversity of compost mesofauna and its potential as an indicator of the com¬posting process status. Dynamic soil dynamic plant. 5 (spec. iss. 2), pр. 45-50.
Teuchezh, A. A., & Smirnova, D. G. (2017) Microbio¬logical, biochemical and technological bases of use of animal wastes. Environmental journal of the North Caucasu. Kuban State Agrarian University named after I. T. Trubilin. Vol.13. рр. 60-66.
Tuomela, M., Vikman, M., Hatakka, A., & Itävaara, M. (2000). Biodegradation of lignin in a compost en-vironment: a review, Bioresource Technology, vol. 72 (2), pp. 169–183.
|
|
| Date published: 2024-02-27
Download full text 
