From seed to flour: Sowing sustainability in the use of cantaloupe melon residue (Cucumis melo L. var. reticulatus)

Cunha, Josiane Araújo da; Rolim, Priscilla Moura; Damasceno, Karla Suzanne Florentino da Silva Chaves; Júnior, Francisco Canindé de Sousa; Nabas, Roseane Claro; Seabra, Larissa Mont’Alverne Jucá

doi:10.1371/journal.pone.0219229

Cited by 37 publications

(23 citation statements)

References 35 publications

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“…Results cleared that the oil retention capacity of peel powder is similar to that of seeds powder. These results are in line with those reported by da Cunha et al [ 52 ]. Currently, the property of fat retention capacity was exploited in foods, especially meat products, which are lost during the cooking process, and this is likely to be useful to improve flavor and yield [ 54 ].…”

Section: Resultssupporting

confidence: 94%

“…Furthermore, fiber content was significantly ( p < 0.05) increased by increasing the addition ratio of CP and CS in raw and cooked samples at zero time and after frozen storage (3 months at -20°C). These results are in agreement with Mallek-Ayadi et al [ 1 ] and da Cunha et al [ 52 ], who reported that the cantaloupe peel and seeds flour were a good source of dietary fiber.…”

Section: Resultssupporting

confidence: 92%

“…These results are in agreement with those found by Mallek-Ayadi et al [ 1 ], the moisture, crude protein, ash, crude fiber, fat, and total carbohydrate in cantaloupe peel were 16.95%, 7.48%, 2.93%, 3.67%, 41.69%, 2.12%, and 69.77%, respectively. Also, da Cunha et al [ 52 ] found that the cantaloupe seeds flour contains 2.64% moisture, 17.64% crude protein, 4.12% ash, 35.48% total dietary fiber, and 30.43% fat. Also, results revealed that CP had the highest content in some minerals such as calcium (1000 mg/100 g) and potassium (940 mg/100 g).…”

Section: Resultsmentioning

confidence: 99%

“…Generally, frozen storage did not affect the fat content except in the sample containing 12% CS. This may be the result of cantaloupe seeds powder which are rich in lipids [ 52 ].…”

Section: Resultsmentioning

confidence: 99%

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Production of Chicken Patties Supplemented with Cantaloupe By-Products: Impact on the Quality, Storage Stability, and Antioxidant Activity

Ali

Ibrahim

Mostafa

2022

International Journal of Food Science

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This study investigated the effect of supplementation with cantaloupe peel (CP) and seeds (CS) (3, 6, 9, and 12%) powder on the quality and antioxidant activity of raw and cooked chicken patties during storage (-20°C/3 months). The addition of CP and CS powder increased protein, fat, ash, and fiber values of chicken patties compared with control, while carbohydrate, pH, and TBA were decreased at zero time and after 3 months of storage. The WHC, cooking yield, fat retention, and moisture retention were increased by increasing CP and CS powder addition ratios, while cooking loss and shrinkage were decreased. Also, CP and CS powder improved antioxidant activity, microbiological quality, and overall acceptability of chicken patties. The hardness of raw and cooked chicken patties was decreased with increasing CP and CS addition ratios. It is recommended to use CP and CS powder as functional ingredients in the preparation of functional foods.

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Section: Resultssupporting

confidence: 94%

Section: Resultssupporting

confidence: 92%

Section: Resultsmentioning

confidence: 99%

“…Generally, frozen storage did not affect the fat content except in the sample containing 12% CS. This may be the result of cantaloupe seeds powder which are rich in lipids [ 52 ].…”

Section: Resultsmentioning

confidence: 99%

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Production of Chicken Patties Supplemented with Cantaloupe By-Products: Impact on the Quality, Storage Stability, and Antioxidant Activity

Ali

Ibrahim

Mostafa

2022

International Journal of Food Science

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“…15.6% proteins and 10.2% fat in avocado seed powder (Ejiofor et al, 2018); 8% protein and 10.2% fat in mango kernel flour (Chandras Das et al, 2019); 28.6% protein and 29.7% fat in papaya seed flour (Santos et al, 2014); and 17.6% protein and 30.4% lipid in melon seed flour (Da Cunha et al, 2020). Thus, it may be concluded that seed is a rich source of protein and fat; their contents differ in flours, depending on the moisture content of the flour of the cultivar under analysis.…”

Section: Effect Of Drying Operational Conditions On Chemical Composition Of Fruit By-productsmentioning

confidence: 99%

Flour made from fruit by‐products: Characteristics, processing conditions, and applications

Larrosa

Otero

2021

J Food Process Preserv

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The disposal of fruit and vegetable by-products has drawn the attention of several sectors worldwide, not only due to the concern over environmental impacts but also due to high ratios of nutrients and bioactive compounds that are found in these nonedible parts. These by-products still have great technological potential, because they can be processed and transformed in cosmetics, pharmaceuticals, food, and other products and biomaterial with high added value. The most common form of incorporating them into food is flour. Drying operations enable waste to keep higher concentration of nutrients, less susceptibility to be attacked by microorganisms (due to low humidity), lower storage volumes, and longer shelf-life. The process of transforming residue into flours can be carried out by different equipment whose goal is to remove moisture. Afterwards, dry products pass through mills to reduce particle size. Then, standardization of granule size is recommended. In the conversion steps, processing conditions are particularly important because they should not cause any loss of nutrients, bioactive compounds, and antioxidant activity to the final product.In view of the need to control production steps, this review aimed at compiling information on the theme found in the literature and at highlighting existing gaps to show the scientific community the importance of studying the factors that affect the quality of dehydrated final products. Practical applicationsThe disposal of fruit by-products attracts the attention of several segments, not only due to the concern with environmental impacts worldwide but also due to the high levels of nutrients and bioactive compounds that are still present in these inedible parts that are not properly used. This review provides nutritional and technological information on fruit residues and their potential for application in food. The most common way of inserting these products in food matrices is through flour, but this process is not just about removing moisture from the product, several factors need to be studied and controlled aiming at the minimum of nutritional and technological losses, reduction of antinutritional factors that may be present in the residues, reduced development of microorganisms, and enzymatic activity, and for these reasons, this review was constructed, to bring the main scientific findings in the literature that reports studies on these subjects to the scientific community. Papaya seed Carica papaya L. Oven drying at 45°C Devi and Khanam (2019) Havai and Calimosa Tray drying at 45°C for 4 days Santos et al. (2014) C. papaya L. Spouted-bed drying 40°C-100°C with 9.24, 9.75, 10.50, and 11.76 m/s of flow air, for 0.5, 1.21, 2.25, 3.29, and 4.0 hr Chielle et al. (2016) C. papaya L. Convective air-drying at 40°C-100°C, air velocity (1-3 m/s) Chielle et al. (2016) Papaya peel Havai and Calimosa Tray drying at 45°C for 4 days Santos et al. (2014) C. papaya Oven drying at 60°C for 48 hr Morais et al. (2017) Freeze drying for 24 hr C. papaya L. Formosa Oven drying at 70°C...

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Melon

Dishri,

Thakur

2024

Nutraceuticals From Fruit and Vegetable Waste

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From seed to flour: Sowing sustainability in the use of cantaloupe melon residue (Cucumis melo L. var. reticulatus)

Cited by 37 publications

References 35 publications

Production of Chicken Patties Supplemented with Cantaloupe By-Products: Impact on the Quality, Storage Stability, and Antioxidant Activity

Production of Chicken Patties Supplemented with Cantaloupe By-Products: Impact on the Quality, Storage Stability, and Antioxidant Activity

Flour made from fruit by‐products: Characteristics, processing conditions, and applications

Melon

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