Effect of edible coatings on bioactive compounds and antioxidant capacity of tomatoes at different maturity stages

Dávila-Aviña, Jorge; Villa-Rodríguez, José A.; Villegas‐Ochoa, Mónica A.; Tortoledo‐Ortiz, Orlando; Olivas, Guadalupe I.; Ayala-Zavala, J. Fernando; González‐Aguilar, Gustavo A.

doi:10.1007/s13197-012-0771-3

Cited by 55 publications

(45 citation statements)

References 23 publications

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“…Thus tomato fruits coated with either pectin and chitosan, and either Aloe vera , thymol and eugenol in combination with modified atmosphere, led to an increase in lycopene content as compared to controls. Conversely, tomato fruits coated with either carnauba or mineral oil had a lower lycopene level than controls …”

Section: Discussionmentioning

confidence: 83%

“…Conversely, tomato fruits coated with either carnauba or mineral oil had a lower lycopene level than controls. 64 In the majority of existing studies, the extension of fruit storage life as a result of treatment was accompanied by a reduction of water loss compared to controls. 37,43,49,65,66 In some cases coatings markedly delayed color development while inducing the greatest weight loss and adversely affecting the fruit quality by alcohol fermentation.…”

Section: Discussionmentioning

confidence: 99%

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Effects of bio‐based coatings on the ripening and quality attributes of tomato (Solanum lycopersicum) fruits

2018

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BACKGROUND Postharvest conservation of tomatoes is a major current challenge for growers and traders. Edible coatings constitute a pertinent alternative to existing conservation methods. RESULTS Control tomatoes were fully ripe 3 days after harvesting, whereas fruits dipped in solutions containing extracts from cocoa pods (T1), cocoa leaves (T2) or coffee hulls (T3) reached full ripeness 14 days after treatment (DAT). Fruits treated by dipping in a solution containing an extract from coffee leaves (T4) were fully ripe 21 DAT. The visual assessment was confirmed by alterations in the level of chlorophyll a. Treatments induced a significant inhibition of chlorophyll a breakdown, especially during the first week after their application, T4 being the most efficacious. Weight loss increased significantly throughout the experimental period and was accelerated by treatments. Some quality‐related parameters of ripe tomato fruits were in most cases not significantly influenced by treatments. In a few cases, however, there were improvements in quality traits of ripe fruits. On 21 DAT, T4 induced significant increases in levels of β‐carotene and 6‐methyl‐3,5‐heptadien‐2‐ol, whereas T2 led, especially, to higher levels of volatile compounds. CONCLUSION Edible coatings based on extracts from coffee or cocoa leaves induced improvements in the shelf life and quality of tomato fruits. © 2018 Society of Chemical Industry

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Section: Discussionmentioning

confidence: 83%

Section: Discussionmentioning

confidence: 99%

Effects of bio‐based coatings on the ripening and quality attributes of tomato (Solanum lycopersicum) fruits

2018

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“…Гуава [138] Трагакантовая камедь + алое вера + лимонная кислота Грибы [139] Казеинат кальция + пчелиный воск + олеиновая кислота Сушенный ананас [121] Казеинат кальция + изолят белка молочной сыворотки Клубника [140] Изолят соевого белка Яблоки [141] Желатин + сорбат калия + глицерин Хурма [106] Желатин + карбоксилметилцеллюлоза Гуава [142] Белок рисовых отрубей + экстракт семян грейпфрута Клубника [143] Воск + кокосовое масло/ горчичное масло/ кунжут масло/ касторовое масло Лимон [144] Карнаубский воск + минеральное масло Томат [145] Эмульсия пчелиного воска Cладкий перец, манго и авокадо [146] Многослойный нанополиэлектролит Манго [147] Полимер на основе сахарозы Мандарин [148] Бобовые и орехи Карбоксилметилцеллюлоза;…”

Section: пальмовое маслоunclassified

Edible polymer films and coatings: background and current state (a review)

Savitskaya¹

2016

polymmattech

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В обзоре представлены данные о составе, способах получения и областях применения съедобных полимерных пленок и покрытий в качестве полностью биоразлагаемых упаковочных материалов. Проанализированы их основные физико-химические характеристики, функции и назначение, приведены примеры коммерциализации разработок в этой области. Savitskaya T. A. Edible polymer films and coatings: background and current state (a review). This review summarizes the composition, methods of preparation and applications of edible polymer films and coatings as completely biodegradable packaging materials. Basic physical and chemical characteristics, functions and purposes have been analyzed.The examples of the commercialization of research in this area are given.

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“…Tomato fruit ( Lycopersicon esculentum ) is considered one of the most widely consumed oleraceous throughout the world, whose popularity may be attributed to its easy household processing and to a growing public awareness about the benefits of in natura consumption of tomatoes (Burton‐Freeman & Reimers, ; Dávila‐Aviña et al, ). Tomatoes are defined as highly perishable climateric fruits, with a relatively short postharvest life (Zapata et al, ).…”

Section: Introductionmentioning

confidence: 99%

Effect of chitosan coating enriched with pequi (Caryocar brasilienseCamb.) peel extract on quality and safety of tomatoes (Lycopersicon esculentumMill.) during storage

Breda

Morgado

Assis

et al. 2017

J Food Process Preserv

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The effects of chitosan based edible coating enriched with pequi peel extract (PPE) on quality and safety of tomatoes stored at 22 °C for 16 days were investigated. The addition of PPE into chitosan matrix reduced in 22% the weight loss and in 50% the total color variation. Concerning firmness and yeast and mold counts, similar improvements were observed for chitosan and chitosan‐extract coatings, recording a delaying of the softening process in around 2 days and lowering in microbial counts to an estimated value of 1.5 × 103 CFU/g. The application of PPE alone showed effective in controlling fungal growth on tomatoes, by reducing in approximately 70% when compared to uncoated fruits. These results suggest that the combination of PPE with chitosan is suitable as an effective edible coating, improving fresh weight retention and reducing color change in tomatoes together with retaining the benefits of chitosan in delaying fungal growth. Practical applications Fungal diseases are one of the most common causes of tomatoes losses, making necessary the use of fungicides. Pequi peel extract has antifungal activity against some fungal pathogens of tomatoes and can be incorporated into chitosan‐based edible coatings in order to avoid the development of fungal diseases and maintain the parameters related to quality during postharvest storage.

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Effect of edible coatings on bioactive compounds and antioxidant capacity of tomatoes at different maturity stages

Cited by 55 publications

References 23 publications

Effects of bio‐based coatings on the ripening and quality attributes of tomato (Solanum lycopersicum) fruits

Effects of bio‐based coatings on the ripening and quality attributes of tomato (Solanum lycopersicum) fruits

Edible polymer films and coatings: background and current state (a review)

Effect of chitosan coating enriched with pequi (Caryocar brasilienseCamb.) peel extract on quality and safety of tomatoes (Lycopersicon esculentumMill.) during storage

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