Source: SEAMEO BIOTROP's Research Grant | 2021

Abstract:

Unappropriate postharvest handling of peanuts can facilitate the occurrence of fungi and mycotoxin contamination, especially Aspergillus flavus which can produce aflatoxins. The main factors affecting the growth of A. flavus during storage are temperature, relative humidity, moisture content, water activity, and carbondioxide (CO₂). The objective of this research was to test and make a model describing the effect of temperature, water activity (a_w) and CO₂ levels on A. flavus growth and aflatoxin production in vitro and in stored peanuts. Methodology of this research were 4 stages, i.e. 1) culturing of strain toxigenic A. flavus BIO 3338, 2) in vitro testing on Potato Dextrose Agar (PDA) mediua, and 3) in vivo testing in peanuts at various temperature, a_w and CO₂ using 6 replications for each treatments, and 4) statistical analysis using Completely Randomized Factorial Design for water activity and temperature treatments, and Completely Randomized Design for carbondioxide treatment. Determination of aflatoxin was conducted using Thin Layer Chromatography (TLC) for aflatoxin of A. flavus culture and Liquid Chromatography Mass Spectro  (LCMS). Result showed that temperature, a_w,  and CO₂ could control toxigenic A.flavus BIO 3338 growth and aflatoxin production in PDA (in vitro) and in peanuts (in vivo). Increasing of A. flavus growth was influenced by increasing of water activity. The optimum A. flavus growth was found on PDA and peanuts with 0.97 a_w at 30°C and 35^oC, respectively. Diameter of A. flavus and aflatoxin production decreased with increasing CO₂ concentrations. Formation of conidia and sclerotia of A. flavus also decreased with increasing of CO₂.

---

Download full report