Articles, Conference and Workshop Papers Collection
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Browsing Articles, Conference and Workshop Papers Collection by Author "Anthony Daniel Funga"
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Item Novel edible coating based on Macadamia Nut oil and chitosan to maintain the antioxidant and physical properties of tomato fruits(Applied Food Research, 2024-06) Tlehema Gwandu Umbayda; Anthony Daniel Funga; Alinanuswe Joel MwakalesiInnovative approaches for extending the shelf life of tomatoes are required due to increased postharvest losses of climacteric-fruits. The use of edible coatings is recently considered as a promising approach due to their non- toxicity and affordability properties. The coatings form physical barriers that alter the internal atmosphere of the fruit and slow down a ripening process. The inuence of an edible coating comprising of chitosan and macadamia nut oil on the antioxidant and physical properties of tomato fruits is reported. The antioxidant and physical qualities of tomato fruits were investigated using different coating solutions. Various concentrations of macadamia nut oil, ranging from 1 % to 2.5 %, were used as independent coating solutions. Additionally, another set of coating solutions was prepared by mixing macadamia nut oil in the same concentration range (1 % to 2.5 %) with 1 % w/v chitosan. The tomatoes were dipped into the coating solutions and stored under a post- harvest shed (23.8–30 ◦ C, 65.8–97.5 % RH) for 20 days to monitor total phenolic content, total avonoid con- tent, ascorbic acid content, color, percentage weight loss, decay percentage, and shelf life after every 5-days interval. The results showed a signicant difference (P < 0.05) between coated and uncoated tomato samples. The coated tomatoes showed the signicant retention of total avonoid content, total phenolic content, hue angle and red-green (a*) compared to uncoated tomatoes. On contrast, the decrease of decay, weight loss, the lightness (L), blue-yellow (b*), chroma, and ascorbic acid content was lower for coated compared to control tomatoes. The ndings indicated that 1 % macadamia nut oil exhibited the highest retention of antioxidant and physical properties, and lowest decrease in ascorbic acid content from 0.014 mg/100 g on the 5th day to 0.0096 mg/100 g on the 20th day was observed. Thus, the ndings from this study suggest that the macadamia nuts can serve as a cheap and low-cost source of edible oil suitable for prolonging the shelf life of tomatoes and related fruits.Item Synergistic effect of macadamia nut oil and Chitosan coatings on physicochemical characteristics of tomatoes during storage(John Wiley & Sons Ltd, 2025-10) Tlehema Gwandu Umbayda; Anthony Daniel Funga; Alinanuswe Joel MwakalesiA signicant portion o globally produced ruits are lost between the armer and consumer, necessitating solutions like natural edible coatings or preservation due to their low cost and less toxicity. Tis study aimed to assess whether the combination o macadamia nut oil and chitosan posed synergistic eects on physicochemical properties o tomato ruits or the macadamia nut oil alone. A completely randomized design (CRD) with eight treatments was employed: S1 (control), S2–S4 (combined macadamia nut oil and chitosan coating), S5–S7 (macadamia nut oil coating), and S8 (chitosan). Te experimental setup was conducted over 20 days at rerigeration (4°C) and postharvest shed conditions (23.8°C–30°C, 65.8%–97.5% RH). Te coating solution made up o a combination o 2.5% v/v macadamia nut oil and 1% w/v chitosan showed signicant dierences (p ≤ 0.05) in slowing down the changes in pH rom 3.95 to 4.3, total chlorophyll content rom 0.19 mg/100 to 0.12 mg/100 mL, and lipid peroxidation rom 13.5 to 19.71 meq/kg. Moreover, coating solutions made by macadamia nut oil alone, especially with 1% v/v, showed the smallest increases in total soluble solids (SS) and total sugar content, and also they exhibited the smallest decreases in titratable acidity (0.64 to 0.08 g/L), ripening index (5.78 to 84.74), total carotenoids (17.02 to 24.585 μg/g), and rmness (355 N to 130 N). Comparative analysis indicated that 1% v/v macadamia nut oil had higher mean dierences (p < 0.05) or most physicochemical parameters than coating solutions comprising 2.5% v/v macadamia nut oil and 1% w/v chitosan. However, this nding highlighted that the combination o macadamia nut oil with chitosan oers a synergistic eect on specic crucial parameters (pH, total chlorophyll content, and lipid peroxidation) compared to macadamia nut oil alone. Further studies could investigate the an- timicrobial eect o tomatoes treated with a combination o macadamia nut oil and chitosan.