Thermal Stability of Selected Natural Red Extracts Used as Food Colorants

The color degradation of aqueous solutions of six natural red pigment extracts (elderberry, red cabbage, hibiscus, red beet, Opuntia fruits and red cochineal) used commercially as food colorants was investigated at temperatures between 50 and 90 °C. Color degradation was studied in respect to both s...

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Bibliographic Details
Published in:Plant foods for human nutrition (Dordrecht) 2013-03, Vol.68 (1), p.11-17
Main Authors: Fernández-López, José A., Angosto, José M., Giménez, Pedro J., León, Gerardo
Format: Article
Language:English
Subjects:
Animals
Anthocyanins - chemistry
Azo Compounds - chemistry
Betacyanins - chemistry
Biological and medical sciences
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Color
Ecology
Feeding. Feeding behavior
Food Coloring Agents - chemistry
Food Science
Food Technology
Fundamental and applied biological sciences. Psychology
Hemiptera
Hot Temperature
Magnoliopsida - chemistry
Naphthalenesulfonates
Nutrition
Original Paper
Plant Extracts - chemistry
Plant Physiology
Vertebrates: anatomy and physiology, studies on body, several organs or systems
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Summary:The color degradation of aqueous solutions of six natural red pigment extracts (elderberry, red cabbage, hibiscus, red beet, Opuntia fruits and red cochineal) used commercially as food colorants was investigated at temperatures between 50 and 90 °C. Color degradation was studied in respect to both spectral properties and visual color. The remaining absorbance at 535 nm as a function of the incubation time and temperature was used to quantify the degradation process. Red cochineal was the most thermoresistant extract with a remaining absorbance of 95 % after 6 h at 90 °C. Anthocyanin extracts (elderberry, red cabbage, hibiscus) showed remaining absorbance percentages of 63.8, 46.1 and 26.7, respectively. Betacyanin extracts (red beet, Opuntia fruits) were the most thermosensitive maintaining only 12.5 and 1.7 %, respectively, of the initial absorbance at 535 nm. Applying a first-order kinetic model to the degradation processes, reaction rate constants ( k ) and half-life periods ( t 1 / 2 ) were calculated. The temperature dependence of the degradation rate constant obeyed the Arrhenius relationship, with activation energies ( E a ) ranging between 3.02 and 53.37 kJ mol −1 . The higher activation energy values indicated greater temperature sensitivity. Changes in visual color attributes corroborated the high thermal stability of the red cochineal extract.
ISSN:0921-9668
1573-9104
DOI:10.1007/s11130-013-0337-1