Agricultural and agro-industrial waste can be valorized through biodrying, a process that uses microbial activity to accelerate water loss to obtain a biodried material (BM) with high calorific value and potential use as a biofuel. This material has the advantage of being easily transported, stored, and preserved until later use. However, its high organic matter content allows it to be used for other purposes. In this study, the use of BM (made from orange peel, grass, mulch, pruning waste, and compost), either alone or mixed with fresh organic waste (FOW) as feed for Eisenia foetida in a vermicomposting system, was evaluated over a period of 49 days. The proportions of BM used were 100%, 75%, 50%, 25%, and 0%, with the remainder completed with FOW. During the bioprocess, temperature, moisture, and pH were monitored, and at the end of the experiment, the survival and reproduction of E. foetida as well as the quality of the humus obtained were analyzed. In the treatments containing 100% and 75% BM, worm survival was reduced by 28.5% and 7.7%, respectively, although the highest number of cocoons (28 and 24 cocoons kghumus−1) was observed in these treatments compared with all others. The humus obtained from all treatments complied with the NMX-FF-109-SCFI-2008 standard, which designates quality grades as extra, first, and second. The treatment with 100% BM produced first-quality humus, but the treatments with mixtures of BM and FOW produced extra-quality humus. The results support the diversification of BM uses and its incorporation into sustainable bioprocesses such as vermicomposting and the production of new value-added products.
Ambriz-Gonzalez et al. (Sat,) studied this question.