Perla A. Gómez scite author profile

Color in tomato is the most important external characteristic to assess ripeness and postharvest life, and is a major factor in the consumer's purchase decision. Degree of ripening is usually estimated by color charts. Colorimeters, on the other hand, express colors in numerical terms along the L*, a* and b* axes (from white to black, green to red and blue to yellow, respectively) within the CIELAB color sphere which are usually mathematically combined to calculate the color indexes. Color indexes and their relationship to the visual color classification of tomato fruits vine ripened were compared. L*, a* and b* data (175 observations from eleven cultivars) from visually classified fruits at harvest in six ripening stages according to the USDA were used to calculate hue, chroma, color index, color difference with pure red, a*/b* and (a*/b*)². ANOVA analysis were performed and means compared by Duncan's MRT. Color changes throughout tomato ripening were the result of significant changes in the values of L*, a* and b*. Under the conditions of this study, hue, color index, color difference and a*/b* expressed essentially the same, and the color categories were significantly different in terms of human perception, with hue showing higher range of values. Chroma was not a good parameter to express tomato ripeness, but could be used as a good indicator of consumer acceptance when tomatoes are fully ripened. The (a*/b*)² relationship had the same limitations as chroma. For vine ripened fruits, hue, color index, color difference and a*/b* could be used as objective ripening indexes. It would be interesting to find out what the best index would be if ripening took place under inadequate conditions of temperature and ilumination.

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Moderate UV-C pretreatment as a quality enhancement tool in fresh-cut Bimi® broccoli

Martínez−Hernández¹,

Gómez²,

Pradas³

et al. 2011

Postharvest Biology and Technology

104

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Low UV-C illumination for keeping overall quality of fresh-cut watermelon

Artés–Hernández

Robles

Gómez

et al. 2010

Postharvest Biology and Technology

155

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Physical, Physiological and Microbial Deterioration of Minimally Fresh Processed Fruits and Vegetables

Artés

Gómez

2007

Food sci. technol. int.

123

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Minimally fresh processed (MFP) or fresh-cut fruits and vegetables is currently the fastest growing sub-sector of the food industry with still a high potential of growth world wide. The practical advantages and convenience they provide to consumers undoubtedly favour this fact. However, because of their specific ways of preparation, MFP plant foods are highly perishable. To minimise this, they must be elaborated following strict control procedures in order to avoid quality loss, assuring food safety to consumers. The most common physical, physiological and microbial causes of deterioration that involve the preparation of these kind of products as well as the main procedures used to avoid undesirable changes are described in this review.

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Perla A. Gómez

Sustainable sanitation techniques for keeping quality and safety of fresh-cut plant commodities

Comparison of color indexes for tomato ripening

Moderate UV-C pretreatment as a quality enhancement tool in fresh-cut Bimi® broccoli

Low UV-C illumination for keeping overall quality of fresh-cut watermelon

Physical, Physiological and Microbial Deterioration of Minimally Fresh Processed Fruits and Vegetables

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