Changes in quality parameters of orange juice deacidified by ion exchange resins

•The effect of deacidification on carotenoids changed with resin type•Acidity of orange juice was reduced by 42–65%•Total carotenoid content of orange juice was not affected by deacidification•Least color change and highest carotenoid content were obtained with AmberliteFPA54•Phenolic content of ora...

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Veröffentlicht in:	Food chemistry 2022-05, Vol.375, p.131837-131837, Article 131837
Hauptverfasser:	Akyıldız, Asiye, Önür, Eda, Ağçam, Erdal, Dündar Kirit, Burcu, Uçan Türkmen, Filiz
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Sprache:	eng
Schlagworte:	Ascorbic Acid - analysis Beverages - analysis Citrus sinensis Deacidification Fruit and Vegetable Juices Ion exchange resin treatments Ion Exchange Resins Orange juice Organic acid compounds Phenolic and carotenoid compounds Phenols - analysis
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description	•The effect of deacidification on carotenoids changed with resin type•Acidity of orange juice was reduced by 42–65%•Total carotenoid content of orange juice was not affected by deacidification•Least color change and highest carotenoid content were obtained with AmberliteFPA54•Phenolic content of orange juice was affected significantly by deacidification In this study, the effectiveness of five different ion exchange resins (Amberlite-IRA96,-FPA51,-FPA53,-FPA54 and Lewatit-S4528) in reducing the acidity of Valencia orange juice and effects on juice quality were determined. The greatest decrease in titratable acidity (65%) and increase (23%) in pH were determined in the juices deacidified using Amberlite-FPA51. The greatest color change (ΔE*=4.89) was identified by treatment of Lewatit-S4528. Ascorbic acid contents were decreased between 12 and 28% by deacidification. Changes ((-4.43)–(+8.18)%) in the carotenoid contents were also assessed in juices treated with different resins. The changes in amount of hydroxycinnamic, hydroxybenzoic acids, flavanones, flavonol and flavone were determined. The largest decrease (ca.28%) in total phenolics was observed with Amberlite-FPA54. The most abundant organic acids in juices were citric acid followed by quinic, malic, ascorbic, tartaric, succinic and oxalic acid, which were decreased after deacidification. Lowest color change and highest carotenoid content were obtained with Amberlite-FPA54.
doi_str_mv	10.1016/j.foodchem.2021.131837
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subjects	Ascorbic Acid - analysis Beverages - analysis Citrus sinensis Deacidification Fruit and Vegetable Juices Ion exchange resin treatments Ion Exchange Resins Orange juice Organic acid compounds Phenolic and carotenoid compounds Phenols - analysis
title	Changes in quality parameters of orange juice deacidified by ion exchange resins
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