Changes in Microbiological and Physicochemical Quality of Dried Persimmons (<i>Diospyros kaki</i> Thunb.) Stored at Various Temperatures

Hyun, Joo-Seok; Kim, Jiyeon; Kim, Eun‐Mi; Kim, Jong-Chan; Lee, Sun-Young

doi:10.1155/2019/6256409

Cited by 9 publications

(8 citation statements)

References 29 publications

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“…Given that individual chips of Preparations 2-5 and 6-10 weighed on average 2 and 6 g, respectively, this places the persimmon chips well within the acceptable range for microbial load in published quality standards which specify that mesophilic aerobic bacteria should be below 10 5 CFU/g (Ireland, Israel) and molds below 10 2 CFU/g (Israel) in similar dried fruit products [22]. As was expected based on the different a w s of the products, the dried persimmon chips in this study exhibited much lower microbial loads than those observed in semidried persimmons with a w s in the range of 0.77-0.83 [9].…”

Section: Microbiologysupporting

confidence: 58%

“…During drying, the characteristic astringent mouthfeel of the fruit decreases, and a powdery white coating of sugar (primarily glucose and fructose) develops on the exterior of the product [8]. Recent work has been done to characterize the shelf-life of hoshigaki (water activity (a W ) 0.77-0.83) at different storage temperatures [9]. However, low-moisture (a W near 0.45), hot-air-dried persimmon chips have not yet been explored in this way, and the sugar bloom phenomenon has not been investigated for this product.…”

Section: Introductionmentioning

confidence: 99%

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Physical, Microbial, and Chemical Quality of Hot-Air-Dried Persimmon (Diospyros kaki) Chips during Storage

Milczarek

Vilches

Olsen

et al. 2020

Journal of Food Quality

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Recent efforts have been made to develop hot-air-dried chips as a value-added product for persimmon fruit (Diospyros kaki). However, the long-term quality of this product and its dependence on processing conditions and packaging type have not yet been explored. Hence, in this work, chips were prepared from “Hachiya” persimmon fruit in 2 ways: 2 mm thickness fruit slices, hot-air-dried for 5 hours (Preparation 2–5), and 6 mm slices, dried for 10 hours (Preparation 6–10). The dried chips were then packaged into 2 bag types (plastic zip-top and metallized polyethylene terephthalate (Met-PET) with desiccant packets), stored under ambient conditions, and sampled for moisture-related, microbial, texture, and chemical quality traits throughout the 1-year storage study. It was found that–with the exception of a marked decrease in ascorbic acid (vitamin C)—all 4 Preparation/Packaging combinations yielded products that maintained acceptable color, microbial, nutritional, and textural quality throughout the entire study. Compared to Preparation 2–5 chips, Preparation 6–10 chips generally had lower contents of healthy nutrients—antioxidant compounds, ascorbic acid, and carotenoids. Evidence of invertase activity was found for Preparation 6–10 chips but not for Preparation 2–5 chips. For both preparations, the contents of ascorbic acid and carotenoids experienced time-dependent decreases. Plastic zip-top bags and Met-PET bags with desiccant packets performed equally well as packaging for most of the quality metrics tracked during this study. Overall, this work has demonstrated that hot-air-drying of persimmon slices is a promising approach to create a value-added product with at least one year of shelf-life.

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Section: Microbiologysupporting

confidence: 58%

Section: Introductionmentioning

confidence: 99%

Physical, Microbial, and Chemical Quality of Hot-Air-Dried Persimmon (Diospyros kaki) Chips during Storage

Milczarek

Vilches

Olsen

et al. 2020

Journal of Food Quality

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“…The most important factor in food storage management is temperature, with lower temperatures generally extending the storage life by minimizing nutrient losses and property changes (Perera, 2005). During an investigation of the microbiological, physico-chemical, and visual quality properties of dried persimmons of the cultivar "Cheongdo-Bansi" during storage at various temperatures, Hyun et al (2019) found that the visual appearance and color index were useful indicators for determining the shelf life of the product. The two main methods that are available for preserving the quality of dried persimmon fruit during storage are frozen storage and storage under low temperature conditions in the presence of an oxygen scavenger, which is generally used in dried persimmon preservation, because the low temperatures prevent microorganisms from growing and slow down chemical activity, delaying degradation of the fruit.…”

Section: Hyun Et Al 2019mentioning

confidence: 99%

Changes in the Physico-Chemical Properties of Persimmon (<i>Diospyros kaki </i>Thunb.) During Drying and Quality Deterioration During Storage

Jia

Katsuno

Nishizu

2019

RAS

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Dried persimmon (Diospyros kaki Thunb.) is one of the most popular fruit products in East Asia, but its properties and consumer acceptance strongly depend on the drying process and storage conditions that are used. The quality of dried persimmon depends on its physical (color, texture) and chemical (tannin levels, sugar content, the presence of white powder on the surface) properties, which are drastically affected by the decrease in moisture content and composition changes that occur during the drying process and storage. Therefore, in the present report, the changes in the physico-chemical properties of dried persimmon that occur during the drying process and its quality degradation during storage are reviewed for providing fundamental information on the production of high-quality dried persimmon and storage management.

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“…According to Dak et al [12], the kinetics of quality parameter change in dried pomegranate arils was zero-order, and the shelf life was predicted to be between 96 and 187 days under accelerated storage conditions based on chemical parameter changes. Hyun et al [13] examined the quality and shelf life of dried persimmons based on the color parameter during storage. Meanwhile, according to Phothapaeree et al [14], the kinetic browning behaviors of ∆E can be utilized to evaluate the shelf life of dried bananas.…”

Section: Introductionmentioning

confidence: 99%

Kinetic Modeling of Quality Changes and Shelf Life Prediction of Dried Coconut Chips

et al. 2022

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The color, texture and rancidity of dried fruit are critical parameters to control for consumer acceptance. The goal of this research was to investigate the kinetics of color parameter changes and texture in terms of the crispness and peroxide value (PV) of dried coconut chips by using zero-, first- and second-order kinetic reactions during storage at different temperatures, as well as shelf life prediction using the accelerated method. The outcomes demonstrated that the zero-order kinetic reaction was appropriate to describe the change in color, crispness and PV of dried coconut chips during storage (R2 = 0.9690–0.9899). The rancidity had a higher correlation than the texture and color changes used to assign the quality essence. The activation energy (Ea) for the PV change was 11.83 kJ/mol. Therefore, the shelf life expectancy of the dried coconut chips was estimated to be 144, 128 and 115 days at 35, 45 and 55 ∘C, respectively. Meanwhile, the shelf life of products stored at ambient temperature was 159 days, and those products were stored in the refrigerator for 194 days. The findings provide retailers and consumers the ability to choose the ideal temperature and storage time for dried coconut chips in order to ensure the product’s quality.

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Changes in Microbiological and Physicochemical Quality of Dried Persimmons (Diospyros kaki Thunb.) Stored at Various Temperatures

Cited by 9 publications

References 29 publications

Physical, Microbial, and Chemical Quality of Hot-Air-Dried Persimmon (Diospyros kaki) Chips during Storage

Physical, Microbial, and Chemical Quality of Hot-Air-Dried Persimmon (Diospyros kaki) Chips during Storage

Changes in the Physico-Chemical Properties of Persimmon (<i>Diospyros kaki </i>Thunb.) During Drying and Quality Deterioration During Storage

Kinetic Modeling of Quality Changes and Shelf Life Prediction of Dried Coconut Chips

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