The rising cost and limited availability of sawdust have driven interest in alternative substrates for mushroom cultivation. Black soldier fly larvae (BSFL) frass is a nutrient-rich byproduct of insect farming that could serve as a low-cost supplement, however, its effective incorporation requires a suitable substrate matrix. This study evaluated BSFL frass supplementation in a soilless, inert substrate system composed of perlite (P), vermiculite (V), and pumice stone (PS) for cultivating pearl oyster mushroom ( Pleurotus ostreatus ). Substrate formulations with increasing frass dosages were developed and assessed for mycelial colonisation, harvest period, yield performance, substrate efficiency, and fruiting-body nutritional quality. Low frass inclusion corresponding to 0.13% nitrogen improved colonisation (up to 13.11 cm 2 /day) and shortened harvest period to 24 days, whereas higher nitrogen levels (>0.57%) suppressed growth and resulted in cultivation failure. Improved aeration and moisture retention associated with the low-bulk-density soilless matrix were identified as key contributors to successful colonisation. The optimal formulation was a 2:1:2 (P:V:PS) mix supplemented with frass at 0.13% nitrogen. Compared with commercial supplemented sawdust substrate and frass-amended sawdust matrix, the frass-amended soilless substrate achieved a comparable effective yield but lower biological efficiency (BE) and a longer harvest period than the commercial control, while outperforming frass–sawdust substrate in yield and efficiency. Mushrooms grown on frass-based substrates showed approximately 10% higher protein content than those from the commercial substrate. Overall, BSFL frass is a promising supplement for soilless mushroom cultivation and supports circular waste to food pathways, though further optimisation is needed for commercial scalability. • BFSL frass served as an alternative supplement for soilless mushroom cultivation. • Low frass (0.13% N) enhanced mycelial colonisation and reduced harvest period. • High frass (>0.57% N) inhibited mycelial growth and fruiting body formation. • Higher protein (based on dry matter basis) was observed in frass cultivated mushroom. • Soilless substrates enhance aeration, moisture retention to support mycelial growth.
Koh et al. (Wed,) studied this question.
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