Soil Amendment with Poultry Manure, Biochar, and Coenzyme A Enhances Yield and Nutritional Composition of Moringa oleifera Lam.

This study assessed the combined application of poultry manure (Pm), biochar (B), and coenzyme A (CoA) into soils to enhance Moringa oleifera Lam. growth, biomass yield, and nutritional and phytochemical composition. This approach allowed us to cover the gap of knowledge on sustainable, low-cost agronomic management alternatives suitable for smallholder systems. To achieve this objective a field experiment was conducted using three treatments (control (no amendment), Pm + B, and Pm + B + CoA) and four consecutive harvests were monitored. Morphological traits (height, stem diameter, number of branches, and leaf yield) were recorded, and phytochemical analyses of glucosinolates and (poly)phenols were performed via HPLC-DAD-ESI/MSn. Mineral and trace elements were quantified by ICP-OES. The main results retrieved allowed describing the capacity of the combined use of Pm + B + CoA to enhance plant growth and productivity, thus increasing the moringa trees&rsquo: height of 226.3 by 39.5%, on average, relative to control plants. ILeaf yield and branch number augmented up to 7.0-fold and 2.5-fold, respectively, under amendment treatments. Petiole girth also increased significantly by &gt:50% (p &lt: 0.01). Phytochemically, Pm + B + CoA significantly elevated total phenolics, vicenin-2, and quercetin acetyl-hexoside in leaves by 2.8-fold, on average, relative to control. The glucosinolate content also augmented as a result of the soil amendments assayed by 51.0%, on average, in stems and petioles, under Pm + B + CoA, compared to control samples. From these results, it can be concluded that the combined use of poultry manure, biochar, and CoA significantly improved M. oleifera growth, biomass yield, and nutritional quality, with a particular efficiency concerning (poly)phenolic accumulation. This low-cost, sustainable amendment strategy provides a viable agronomic solution in regions suffering socioeconomic constraints that hinder access to high-cost agronomic management options. Therefore, this approach effectively links ecological soil management with improved productivity, nutritional value, and potential for food industries.