ASHS 2024 Conference

The increasing environmental concerns and economic pressures necessitate the search for peat moss alternative as a substrate component, aiming to balance ecological sustainability with cost-effectiveness. This study aims to assess whether the biochar (BC) and hydrafiber (HF) could be a partially replacement for peat moss for zinnia and snapdragon production. Twelve substrates were formulated by either mixing BC (20%,40%, or 60% by vol) with HF (20%, 40%, or 60% (by vol), with the remaining being peat moss or blending BC (0%, 20%,40%, and 60%, by vol) with the commercial peat moss-based substrates (CS). The physical properties of substrate, including container capacity (CC), total porosity (TP), air space (AS), bulk density (BD), and water holding capacity (WHC), and chemical properties including leachate pH and electrical conductivity (EC) were measured. Plant growth parameters including growth index (GI) and leave greenness (indicated with SPAD value), biomass, and numbers of flowers were measured biweekly. The results showed all the substrate mixes had similar AP, BD and SPAD. Treatment with 20