Thermal Degradation Kinetics of Anthocyanins and Visual Color of Blood Orange Juice 被引量：4

Thermal Degradation Kinetics of Anthocyanins and Visual Color of Blood Orange Juice

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摘要 Thermal degradation kinetics of anthocyanins and visual color （Hunter α value） of blood orange juice were studied at selected temperatures （70-90℃）. Results indicated that both the thermal degradation of anthocyanin and visual color all followed first-order reaction kinetics, and they could be expressed by Arrhenius equation. The activation energy values for the anthocyanins degradation and visual color degradation were 55.81 and 47.51 kJ tool-1, respectively. The linear relationship between visual color and anthocyanin content was obtained. Furthermore, during thermal processing of blood orange juice, the formulas about the linear relationships showed no significant difference at selected temperatures. So, the relationships between visual color and anthocyanins content during thermal processing at selected temperatures could be described by the same equation： α＊/αo＇=0.559（C/Co）＋0.43. It might be inferred that visual color measured instantaneously by tristimulus colorimeters for on-line quality control, could be used to predict the anthocyanins degradation during thermal processing of blood orange juice. Thermal degradation kinetics of anthocyanins and visual color （Hunter α value） of blood orange juice were studied at selected temperatures （70-90℃）. Results indicated that both the thermal degradation of anthocyanin and visual color all followed first-order reaction kinetics, and they could be expressed by Arrhenius equation. The activation energy values for the anthocyanins degradation and visual color degradation were 55.81 and 47.51 kJ tool-1, respectively. The linear relationship between visual color and anthocyanin content was obtained. Furthermore, during thermal processing of blood orange juice, the formulas about the linear relationships showed no significant difference at selected temperatures. So, the relationships between visual color and anthocyanins content during thermal processing at selected temperatures could be described by the same equation： α＊/αo＇=0.559（C/Co）＋0.43. It might be inferred that visual color measured instantaneously by tristimulus colorimeters for on-line quality control, could be used to predict the anthocyanins degradation during thermal processing of blood orange juice.

作者 CAO Shao-qian LIU Liang PAN Si-yi

机构地区 College of Biological and Environmental Sciences Department of Applied Biology College of Food Science and Technology

出处《Agricultural Sciences in China》 CAS CSCD 2011年第12期1992-1997,共6页 中国农业科学（英文版）

基金 funded by the Natural Science Foundation of Hubei Province,China(2006ABA168)

关键词 blood orange juice anthocyanins visual color degradation kinetics RELATIONSHIP blood orange juice, anthocyanins, visual color, degradation kinetics, relationship

分类号 TS255.44 [轻工技术与工程—农产品加工及贮藏工程] S685.12 [农业科学—观赏园艺]

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参考文献29

1Ahmed J, Shivhare U S, Raghavan G S V. 2004. Thermal degradation kinetics of anthocyanin and visual colour of plum puree. European Food Research and Technology, 218, 525- 528.
2Calvi J P, Francis F J. 1978. Stability of concord grape (Vitis. labrusca) anthocyanins in model systems. Journal of Food Science, 43, 1448-1456.
3Chen L, Hrazdina G. 1981. Structural aspects of anthocyain- flavonoid complex formation and its role in plant color. Phytochemistry, 20, 297-303.
4Dugo P, Mondello L, Morabito D, Dugo G. 2003. Characterization of the anthocyanin fraction of Sicilian blood orange juice by micro-HPLC-ESI/MS. Journal of Agricultural andFood Chemistry, 51, 1173-1176.
5Fernando Reyes L, Cisneros-Zevallos L. 2007. Degradation kinetics and colour of anthocyanins in aqueous extracts of purple- and red-flesh potatoes (Solanum tuberosum L.). Food Chemistry, 100, 885-894.
6Fossen T, Cabrita L, Andersen O M. 1998. Colour and stability of pure anthocyanins influenced by pH including the alkaline region. Food Chemistry, 63,435-440.
7Garcia-Viguera C, Bridle P. 1999. Influence of structure on colour stability of anthocyanins and flavylium salts with ascorbic acid. Food Chemistry, 64, 21-26.
8Hilleberand S, Schwarz M, Winterhalter P. 2004. Charaterization of anthocyanins and pyranoanthocyanins from blood orange (Citrus sinensis L. Osbeck) juice. Journal of Agricultural and Food Chemistry, 52, 7331-7338.
9Ingallinera B, Barbagallo R N, Spagna G, Palmeri R, Todaro A. 2005. Effects of thermal treatments on pectinesterase activity determined in blood orange juices. Enzyme and Microbial Technology, 36, 258-263.
10Jackman R L, Yada R Y, Tung M A, Speers R A. 1987. Anthocyanins as food colorants - a review. Journal of Food Biochemistry, 11,201-247.

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Thermal Degradation Kinetics of Anthocyanins and Visual Color of Blood Orange Juice 被引量：4

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