Formulation and Evaluation of an Eco-Friendly Allamanda Microemulsion Biofungicide for the Control of Anthracnose in Papaya

An eco-friendly microemulsion biofungicide derived from Allamanda cathartica was developed for the control of papaya anthracnose caused by Colletotrichum gloeosporioides. The formulation was prepared by blending surfactants, carrier oil, and water and optimized using ternary phase diagrams to identify stable microemulsion systems. All selected formulations exhibited surface tension values ranging from 29 to 31 mN/m, while particle sizes ranged from 51.79 to 1801.05 nm. The optimized formulation, coded as AM8, consisted of 35% Allamanda concentrated liquid crude extract (ACLCE), 26% water, 13% alkyl polyglucoside surfactant, and 26% dimethylamide oil. Papaya fruits coated with the formulations showed significant reductions (p < 0.05) in anthracnose incidence caused by C. gloeosporioides. Control fruits treated with water showed 75% disease incidence, whereas fruits treated with benomyl showed 42% disease incidence. Disease incidence, severity, and disease index decreased with increasing formulation concentration, and fruits treated with the eight formulations at 10% concentration exhibited significantly lower disease incidence (0–17%) and disease index (0–17%), with disease severity consistently scored as zero. The Allamanda formulation demonstrated strong antifungal activity with EC50 and EC95 values of 1.839 and 7.067 mg/mL (w/v), respectively, at the 95% confidence level. The optimized formulation AM8 remained stable for up to one year and showed superior disease control performance compared with the conventional fungicide benomyl. In addition, the formulation maintained fruit quality by preserving firmness, peel color, and soluble solids concentration, thereby extending papaya shelf life up to 30 days without adversely affecting the natural ripening process. These findings demonstrate the potential of Allamanda-based microemulsion formulations as sustainable biofungicides for postharvest control of papaya anthracnose and provide a promising alternative to conventional synthetic fungicides.