Chorolque, A.; Pellejero, G.; Sosa, M.C.; Palacios, J.; Aschkar, G.; García Delgado, C.; Jiménez Ballesta, R.
Resumen:
The production of onion waste derived mainly from bulbs affected by fungal diseases, during onion classification and storage
presents an important agro-environmental issue in onion production regions. Composting is an environmentally friendly
strategy to recycle agricultural waste and produce organic fertilizers. Modifications of the microbial community in soil can
affect the ability of pathogen propagules to survive, germinate and infect plant roots. Hence, the main objective of this work
was to exploring the mechanisms involved on the presence of three soil-borne phytopathogenic fungi during the composting
process of onion waste under the hypothesis if that the resulting compost effectively prevents or minimizes the dispersion of
phytopathogenic fungi. To this end, three composting piles of 60 tonnes each were built by layering onion waste affected by
phytopathogenic fungi and cow dung at 1:1 ratio. Temperature, moisture, pH, electrical conductivity (EC) and Aspergillus
niger, Penicillium sp. and Fusarium sp. growth were monitored for 100 days. During the first 28 days of composting, the
presence of phytopathogenic fungi increased significantly showing thereafter a downward trend. Final estimations of fungal
populations densities indicated a predominance of A. niger and an effective reduction in the abundance of Fusarium sp. This
pilot-scale work demonstrates the feasibility of composting onion waste contaminated with phytopathogenic fungi and high-
lights the positive environmental impact associated with this practice. Therefore, the composting of onion waste and cow dung
is a feasible and sustainable procedure to recycle onion waste and to promote circular economy in onion production regions.