N Matan1, N Matan1, S Ketsa. 1. Food Technology, School of Agricultural Technology, Walailak University, Nakon Si Thammarat, Thailand. nnarumol@wu.ac.th
Abstract
AIMS: This study aimed to examine heat curing effect (30-100°C) on antifungal activities of lime oil and its components (limonene, p-cymene, β-pinene and α-pinene) at concentrations ranging from 100 to 300 μl ml(-1) against Aspergillus niger in microbiological medium and to optimize heat curing of lime oil for efficient mould control on sedge (Lepironia articulata). METHODS AND RESULTS: Broth dilution method was employed to determine lime oil minimum inhibitory concentration, which was at 90 μl ml(-1) with heat curing at 70°C. Limonene, a main component of lime oil, was an agent responsible for temperature dependencies of lime oil activities observed. Response surface methodology was used to construct the mathematical model describing a time period of zero mould growth on sedge as functions of heat curing temperature and lime oil concentration. Heat curing of 90 μl ml(-1) lime oil at 70°C extended a period of zero mould growth on sedge to 18 weeks under moist conditions. CONCLUSIONS: Heat curing at 70°C best enhanced antifungal activity of lime oil against A. niger both in medium and on sedge. SIGNIFICANCE AND IMPACT OF THE STUDY: Heat curing of lime oil has potential to be used to enhance the antifungal safety of sedge products.
AIMS: This study aimed to examine heat curing effect (30-100°C) on antifungal activities of lime oil and its components (limonene, p-cymene, β-pinene and α-pinene) at concentrations ranging from 100 to 300 μl ml(-1) against Aspergillus niger in microbiological medium and to optimize heat curing of lime oil for efficient mould control on sedge (Lepironia articulata). METHODS AND RESULTS: Broth dilution method was employed to determine lime oil minimum inhibitory concentration, which was at 90 μl ml(-1) with heat curing at 70°C. Limonene, a main component of lime oil, was an agent responsible for temperature dependencies of lime oil activities observed. Response surface methodology was used to construct the mathematical model describing a time period of zero mould growth on sedge as functions of heat curing temperature and lime oil concentration. Heat curing of 90 μl ml(-1) lime oil at 70°C extended a period of zero mould growth on sedge to 18 weeks under moist conditions. CONCLUSIONS: Heat curing at 70°C best enhanced antifungal activity of lime oil against A. niger both in medium and on sedge. SIGNIFICANCE AND IMPACT OF THE STUDY: Heat curing of lime oil has potential to be used to enhance the antifungal safety of sedge products.