Utilization of lignocellulose-based orange peel waste for induced sporulation of trichoderma asperellum via box-behnken matrix design

The feasibility of using orange peel residues as a substrate for induced sporulation of Trichoderma asperellum was evaluated. The Box-Behnken matrix (BBM) design was used to screen the effects of several parameters, including the effect of pH, inoculum, and moisture under solid-state fermentation culture conditions. The study was performed in two experimental steps (screening and optimization). Moisture content and pH were determined to be the most influential parameters on spore production during the screening stage. A Box-Behnken design was used to optimize and to define the interaction of the selected parameters. The moisture content was determined as the most significant parameter affecting spore production. An inoculum of 1 × 106 spores g-1 , pH 6.07, and moisture content of 69.0%25 was the combination of conditions observed to achieve the maximum production of 2.04 × 109 spores g -1 . The experimental value of 2.16 × 109 spores g-1 (from the experimental model) showed a good fit to the regressed model, with a standard error of 5%25. Based on this work, a high yield of spores was obtained at 144 h of cultivation time, indicating that it is a feasible approach to use orange peel as a substrate for biomass and spore production. © 2018.

Fungi; Lignocellulose; Optimization; Orange peel waste; Sporulation Citrus fruits; Fermentation; Moisture; Moisture determination; Box-Behnken design; Cultivation time; Experimental modeling; Experimental values; Matrix design; Orange peel wastes; Solid-state fermentation; Standard errors; Substrates; Citrus Fruits; Fermentation; Moisture Content; Orange Peel; Production; Spores; Substrates

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