Development of an Application Method for Volatile Compounds Derived from Mushroom Fungi Beds as Plant Growth-Promoting Biostimulants.

Volatile compounds (VCs) from fungi can promote plant growth, but their application methods are limited. Edible mushroom fungi beds (FBs) provide a readily available alternative source of fungal VCs, although their biostimulatory functions remain unvalidated. In this study, a novel, non-contact exposure method for applying VCs emitted from FBs to rice seedlings was developed. This marks the first evaluation of mushroom FBs as a direct source of bioactive VCs for plant growth promotion. Volatiles from two different edible mushroom FBs promoted shoot growth and increased biomass for rice seedlings. VCs from shiitake FBs significantly increased biomass by 67.4% while VCs from enokitake FBs by 39.5% compared to the control. The biomass-increasing effects were influenced by the quantity of shiitake FBs applied, with significant increases at 15 g, 30 g and 60 g applications. The VCs effects remained significant even when the FBs were covered with two types of gas-permeable polymer film. Chemical analysis of VCs from FBs identified several organic compounds and subsequent bioassays using synthetic VCs determined key bioactive VCs contributing to biomass increase at specific concentrations. This study presents a utilization method of waste mushroom FBs as sustainable, scalable, and cost-effective agricultural biostimulants.