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Thermal stability enhancement of berry anthocyanins by co-pigmentation with extracts from natural sources

Aichurok Mazhitova, Aidaikan M. Kasymakunova, Nüzhet Türker

2022International Journal of Food Engineering12 citationsDOI

Abstract

Abstract The suitability of mandarin (MP), orange (OP) and pomegranate peel powders (PP) for co-pigmentation of dewberry, viburnum, red hawthorn, black hawthorn, and barberry anthocyanins was investigated. Spectrophotometric measurements indicated co-pigmentation causing both a hyperchromic effect (ΔABS max = 5–13) and bathochromic shift (Δ λ vis-max up to 13 nm). The degradation kinetics of anthocyanins were estimated at temperatures ranging from 70 to 90 °C. First-order reactions with rate constants of 0.45–2.93 min −1 and 0.30–2.00 min −1 were observed for the reference and PP co-pigmented samples, respectively. The t 1/2 values were 3.90–25.7 h for the reference and 5.8–38.5 h for the co-pigmented samples. The activation energy ( E a ) values were higher in co-pigmented samples (49.16–77.77 kJ/mol) than in reference samples (41.82–68.75 kJ/mol), except for black hawthorn, which had a lower E a value in the co-pigmented sample. The thermodynamic parameters (enthalpy, free energy, and entropy) evaluated indicated a positive effect of co-pigmentation on the thermal treatment of anthocyanins.

Topics & Concepts

ChemistryBathochromic shiftAnthocyaninOrange (colour)EnthalpyHyperchromicityThermal stabilityFood scienceBotanyNuclear chemistryFluorescenceOrganic chemistryBiochemistryThermodynamicsBiologyDNAPhysicsQuantum mechanicsPhytochemicals and Antioxidant ActivitiesFree Radicals and AntioxidantsAntioxidant Activity and Oxidative Stress
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