Coating Guava Postharvest With the Use of Starch of Tamarind Seed and Pomegranate Seed Oil

The effect of coatings with different concentrations of tamarind seed starch associated with pomegranate seed oil in ‘Paluma’ guava was investigated in the present work. The fruits were harvested from an orchard in the morning, packed in containers previously lined with paper, and transported to a laboratory, where they were selected, washed, sanitized, and separated at random for the application of each treatment. The experiment design used was completely randomized, in the 6 × 6 factorial scheme, six coatings and six evaluation periods, with 3 replicates made up of 2 fruits. The treatments were: T1 (control or reference sample), without coating; T2 (0.24 mL of pomegranate seed oil/mL of coating); T3 (2% tamarind starch); T4 (1% tamarind starch); T5 (2% of tamarind starch); T6 (3% tamarind starch), T4, T5 and T6 were associated with 0.24 mL/mL of the pomegranate seed oil. The treatments were applied under immersion of the fruits in the solutions and then stored in a refrigerated chamber at 10±2 °C and 80±5% RH, and the evaluations were performed at intervals of 3 days to 12 days of storage. Due to the maintenance of the quality of the fruits, and without sufficient material, it was decided to extend storage time until the 21 days. Thus, the analyses were performed at 0, 3, 6, 9, 12 and 21 days with evaluations at 0, 3, 6, 9, 12, and 21 days. The T6 treatment (3% tamarind starch + 0.24 mL/mL pomegranate seed oil) was more efficient regarding luminosity (L*) of the fruits and delaying color development , expressed by the values of C*, also showing the higher retention in the loss of firmness, lower mass loss and lower soluble solids content, suggesting that this treatment possibly inhibited the degradation of polysaccharides, delaying the ripening process of the fruits.

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Effect of the Biodegradable Coatings the Base on Microalgae and Oil of the Seed of the Pomegranate in the Conservation Powder-Crop of the Papaya ‘Golden’

Journal of Agricultural Science ◽

10.5539/jas.v10n10p367 ◽

2018 ◽

Vol 10 (10) ◽

pp. 367 ◽

Cited By ~ 2

Author(s):

Albert E. M. de M. Teodosio ◽

Railene H. C. R. Araujo ◽

José F. de Lima ◽

Elny A. Onias ◽

Ana P. N. Ferreira ◽

...

Keyword(s):

Seed Oil ◽

Promising Alternative ◽

Pomegranate Seed Oil ◽

Chlorella Sp ◽

Randomized Design ◽

Pomegranate Seed ◽

Completely Randomized Design ◽

Biodegradable Coatings ◽

Crop Conservation

It is very challenging to the quality of the papaya culture’s fruits (Carica papaya L.) after the crop, especially due to their significance to the international market, that is, their elevated exportation demands. The purpose of this work was the application of biodegradable coatings composed of Scenedesmus sp. and Chlorella sp. associated or not with pomegranate seed oil in ‘Golden’ papaya and to evaluate their effect in the conservation powder-crop. The installation of the experiment was carried out in a completely randomized design, with a 6 x 6 factorial outline, that is, six concentrations (C: control; SO: 0.5% of Scenedesmus sp. + 0.3% of pomegranate seed oil; S: 0.5% of Scenedesmus sp.; CO: 0.5% of Chlorella sp. + 0.3% of pomegranate seed oil; CH: 0.5% of Chlorella sp.; O: 0.3% of pomegranate seed oil) and six evaluation periods (0, 3, 6, 9, 12, and 15 days), stored at a temperature of 18±2 °C with 60±5% RH with three repetitions of two fruits per portion. The use of coverings composed of Scenedesmus sp. and Chlorella sp. in association or not with pomegranate seed oil was proven efficient in the reduction of the breathing tax of ‘Golden’ papaya, delaying the ripening process, and therefore representing a promising alternative for these fruits’ powder-crop conservation. The coating composed of 0.5% of Chlorella sp. + 0.3% of pomegranate seed oil (CO) provided a better powder-crop conservation of ‘Golden’ papaya during 15 days of storage.

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Nutraceutical coating composition for postharvest conservation of 'Paluma' guava

Australian Journal of Crop Science ◽

10.21475/ajcs.20.14.04.p2264 ◽

2020 ◽

pp. 649-653

Author(s):

Kalinny de Araújo Alves ◽

Railene Hérica Carlos Rocha de Araújo ◽

Agda Malany Forte de Oliveira ◽

Fabricio Alves de Morais ◽

Elny Alves Onias ◽

...

Keyword(s):

Seed Oil ◽

Titratable Acidity ◽

Edible Coating ◽

Soluble Solids ◽

Pomegranate Seed Oil ◽

Post Harvest ◽

Randomized Design ◽

Peel Color ◽

Pomegranate Seed ◽

Preserved Fruit

This work assesses the influence of edible coating with nutraceutical properties on post-harvest conservation of guavas 'Paluma'. The experiment comprised of a completely randomized design with four replicates and three fruits per plot. Six treatments were applied combining different concentrations of agar and pomegranate seed oil (PS): T1: 1% agar and 0.1 mL/L PS oil; T2: 2% agar and 0.2 mL L-1 PS oil; T3: 3% agar and 0.3 mL L-1 PS oil; T4: 4% agar and 0.4 mL L-1 oil; T5: 5% agar and 0.5 mL L-1 oil; and T6: control (fruits without coating). After the immersion in treatment solutions, the guavas remained stored in an air-conditioned room for ten days at 10 °C and 40% RH. Fruits without coating (control) ripened faster than coated ones, so the treatments preserved fruit coloration. The treatments T4 and T5 provided the best preservation of peel color, suggesting slower ripening and maintenance of fruit quality, as their colors tended to green and opaque. The firmness of fruits without coating was decreased by 35.15% concerning the coated ones. Treatments T4 and T5 had the lowest loss of fresh mass. On the other hand, T5 showed the lowest soluble solids contents (SS)(13.46%). Titratable acidity (TA), SS/TA ratio, total sugars, and carotenoids were not affected by treatments. The edible coating with 4% of agar plus 0.4 mL L-1 of pomegranate seed oil promoted the best quality traits for the post-harvest preservation of the guavas 'Paluma'.

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Effects of edible coatings of Chlorella sp. containing pomegranate seed oil on quality of Spondias tuberosa fruit during cold storage

Food Chemistry ◽

10.1016/j.foodchem.2020.127916 ◽

2021 ◽

Vol 338 ◽

pp. 127916

Author(s):

Albert Einstein Mathias Medeiros Teodosio ◽

Railene Hérica Carlos Rocha Araújo ◽

Bárbara Genilze Figueiredo Lima Santos ◽

Jéssica Aline Linné ◽

Maria Lucimar da Silva Medeiros ◽

...

Keyword(s):

Cold Storage ◽

Seed Oil ◽

Edible Coatings ◽

Pomegranate Seed Oil ◽

Chlorella Sp ◽

Pomegranate Seed ◽

Spondias Tuberosa

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Quality of Carrots Grown for Processing as Affected by Nitrogen Fertilization and Harvest Term

Vegetable Crops Research Bulletin ◽

10.2478/v10032-009-0013-z ◽

2009 ◽

Vol 70 (1) ◽

pp. 135-144 ◽

Cited By ~ 3

Author(s):

Marek Gajewski ◽

Zenon Węglarz ◽

Anna Sereda ◽

Marta Bajer ◽

Agnieszka Kuczkowska ◽

...

Keyword(s):

Nitrogen Fertilization ◽

Soluble Solids ◽

Soluble Solids Content ◽

Carrot Juice ◽

Harvest Time ◽

Experimental Station ◽

Colour Parameters ◽

Solids Content ◽

Nitrates Content

Quality of Carrots Grown for Processing as Affected by Nitrogen Fertilization and Harvest TermIn 2007-2008 the effect of nitrogen fertilization and harvest term on quality of two carrot cultivars was investigated. The field experiment was carried out in Żelazna Experimental Station of Warsaw University of Life Sciences. Karotan F1and Trafford F1cultivars, commonly grown for juice industry, were the objects of the experiment. Carrot seeds were sown at the beginning of May. Nitrogen fertilization was applied in five rates, ranged from 0 to 120 kg·ha-1and in two terms — before sowing and in the middle of growing season. Roots were harvested in three terms: mid-September, mid-October and the first decade of November. After harvest there were determined: nitrates (NO3) content in carrot roots and juice, soluble solids, colour parameters of juice in CIE L*a*b*system. The dose and the term of nitrogen fertilization influenced nitrates content in carrots, and the highest NO3concentration was found in carrots fertilized with 120 kg·ha-1of N before sowing. Karotan showed higher nitrates accumulation than Trafford. The content of nitrates in the roots was markedly higher than in carrot juice. Nitrates content in carrots decreased with delaying of harvest time, in opposite to soluble solids content. Soluble solids content and colour parameters of carrot juice were not affected by nitrogen fertilization, but the lowest L*, a*and b*values were observed at the last term of harvest.

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Hydrothermic Treatment Effects on Some Ripening Changes on Mango Fruits (Mangifera indica L) `Crillo de Bocado' during Storage: II. Chemical Parameters

HortScience ◽

10.21273/hortsci.33.3.520e ◽

1998 ◽

Vol 33 (3) ◽

pp. 520e-520

Author(s):

Juan E Manzano ◽

Oswaldo Valor

Keyword(s):

Low Temperature ◽

Storage Time ◽

Storage Temperature ◽

Mangifera Indica ◽

Soluble Solids ◽

Soluble Solids Content ◽

Chemical Parameters ◽

Randomized Design ◽

Solids Content ◽

Green Stage

Mango fruits `Criollo de Bocado' harvested at the mature-green stage were treated with a hydrothermic treatment of 55 °C for 3 min and stored for 20 days at temperatures of 10 ± 2, 15 ± 2 and 28 ± 2 °C. A randomized design 2 × 3 × 4 with three replications was used. Some chemical parameters were analyzed, such as total soluble solids content (% TSS), pH, tritatable acidity, and TSS/tritatable acidity ratio. TSS content increased with storage time at low temperature. The pH increased measurably with storage temperature, while tritatable acidity values results had inconsistent data.

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In Vitro Estimation of Photo-Protective Potential of Pomegranate Seed Oil and Development of a Nanoformulation

Current Nutrition & Food Science ◽

10.2174/1573401314666180223134235 ◽

2019 ◽

Vol 15 (1) ◽

pp. 87-102 ◽

Cited By ~ 2

Author(s):

Surbhi Dhawan ◽

Sanju Nanda

Keyword(s):

Particle Size ◽

Zeta Potential ◽

Seed Oil ◽

Topical Delivery ◽

Inflammatory Activity ◽

Pomegranate Seed Oil ◽

Protective Potential ◽

Release Studies ◽

Pomegranate Seed

Background: Since ancient times, people have been using natural resources for photoprotection purposes. One such highly recognised natural agent is pomegranate seed oil, considered as wonder oil owing to the presence of several beneficial phytoconstituents. Objective: The study aimed to establish the photoprotective potential of pomegranate seed oil through various in vitro and biochemical studies along with the formation of nanoemulsion, an efficient topical delivery system for the oil. Method: Photo-protective potential of the oil was estimated by determining in vitro antioxidant and anti-inflammatory activity, total phenolic content, anti elastase, antihyaluronidase and anticollagenase activities of the oil. Ultrasonication method was used to formulate nanoemulsions. The optimisation was done following the central composite design. The characterisation was done by particle size analysis, zeta potential, polydispersity index, pH, viscosity, stability testing and transmission electron microscopy. The optimised nanoemulsion was loaded into a gel base for topical application and further release studies were carried out. Results: The IC50 values of anti-elastase, anti-collagenase and anti-hyaluronidase were found to be 309 mg/ml, 4 mg/ml and 95 mg/ml respectively. The results of anti-oxidant and anti-inflammatory activity were also significant, which thereby established the photo-protective potential of the oil. The optimum batch 2 had particle size 83.90 nm, 0.237 PDI and -5.37 mV zeta potential. The morphology was confirmed by TEM. Batch 2 was incorporated into a gel base and release studies showed 74.12 % release within 7 hours. Conclusion: Pomegranate seed oil possesses a potential photo-protective ability. Nanoemulsions proved to be a promising carrier for the topical delivery of the oil.

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