Packaging materials play an important role in the quality preservation during postharvest storage and shelf life of fruits and vegetables. The properties of film can affect the gas composition and the physiology of the products. The Group Research Labs of SAES Getters S.p.A. have developed, in collabora-tion with its affiliate company SAES Coated Films S.p.A. a packaging system highly selective for ethylene, including a coating (12 µm), with good trans-parency and an additional antifog function, which can be deposited on various plastic films. The objective of the work was the evaluation of this new active packaging on ‘cherry’ type tomato berries during storage. The control consisted of a macroperforated polypropylene film used for flowpack packaging. Two experimental tests were conducted, the first during cold storage (10 ± 2°C) and the second at room temperature (22 ± 2°C). The analyses included visual appearance, weight loss, gas exchanges, relative humidity, volatile organic compounds (VOC), colour, titratable acidity, refractometric index (° Brix) and the concentration of lycopene and βcarotene. The use of the innovative packaging did not alter the main quality indicators of the tomato and the parameter that had the greatest impact on the product metabolism was the storage tem-perature. The VOC concentration was influenced by packaging, with a greater accumulation in the samples packed with active packaging compared to the control. Moreover, the same material determined a reduction in weight loss, a greater accumulation of CO2 and a significant reduction in O2, especially at 22°C. At the end of the storage, the berries stored in the active packaging showed higher levels of lycopene, compared to controls, and a reduction in βcarotene, indicating an active role of the material in modulating the content of bioactive compounds in the fruits. It can be concluded that the use of this innovative material can represent an effective tool for improving the postharvest management of tomato berries.
New active packaging for improving the shelf life and quality of tomato / G. Cocetta, M. Riva, G. Castelli, A. Ferrante. - In: ADVANCES IN HORTICULTURAL SCIENCE. - ISSN 0394-6169. - 34:1(2020), pp. 53-59. [10.13128/ahsc-8292]
New active packaging for improving the shelf life and quality of tomato
G. Cocetta
Primo
;A. FerranteUltimo
2020
Abstract
Packaging materials play an important role in the quality preservation during postharvest storage and shelf life of fruits and vegetables. The properties of film can affect the gas composition and the physiology of the products. The Group Research Labs of SAES Getters S.p.A. have developed, in collabora-tion with its affiliate company SAES Coated Films S.p.A. a packaging system highly selective for ethylene, including a coating (12 µm), with good trans-parency and an additional antifog function, which can be deposited on various plastic films. The objective of the work was the evaluation of this new active packaging on ‘cherry’ type tomato berries during storage. The control consisted of a macroperforated polypropylene film used for flowpack packaging. Two experimental tests were conducted, the first during cold storage (10 ± 2°C) and the second at room temperature (22 ± 2°C). The analyses included visual appearance, weight loss, gas exchanges, relative humidity, volatile organic compounds (VOC), colour, titratable acidity, refractometric index (° Brix) and the concentration of lycopene and βcarotene. The use of the innovative packaging did not alter the main quality indicators of the tomato and the parameter that had the greatest impact on the product metabolism was the storage tem-perature. The VOC concentration was influenced by packaging, with a greater accumulation in the samples packed with active packaging compared to the control. Moreover, the same material determined a reduction in weight loss, a greater accumulation of CO2 and a significant reduction in O2, especially at 22°C. At the end of the storage, the berries stored in the active packaging showed higher levels of lycopene, compared to controls, and a reduction in βcarotene, indicating an active role of the material in modulating the content of bioactive compounds in the fruits. It can be concluded that the use of this innovative material can represent an effective tool for improving the postharvest management of tomato berries.File | Dimensione | Formato | |
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