橙汁饮料中的总黄酮含量及其与浑浊稳定性关系研究

宋昊; 赵秀文; 李开; 郑玉芝

doi:10.13386/j.issn1002-0306.2016.23.013

橙汁饮料中的总黄酮含量及其与浑浊稳定性关系研究

北京一轻研究院

基金项目:

北京市东城区科技计划支持项目；

详细信息

作者简介:
宋昊(1979-),女,博士,助理研究员,研究方向:食品与微生物发酵,E-mail:lyfd2002@163.com。;

郑玉芝(1965-),女,博士,教授级高工,研究方向:食品科学与工程,E-mail:zhengyuzhi2012@sohu.com。;

中图分类号: TS255.44
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出版历程
- 收稿日期: 2016-06-01

Flavonoids content of orange juice beverage and the relationship between the content and cloud stabilization

Beijing Industrial Technology Research Institute

摘要

摘要: 为探讨橙汁和橙汁饮料的黄酮含量分布及其与浑浊稳定性的关系,测定了14种橙汁饮料的总黄酮含量、浑浊度及粘度。上清液经过0.45μm膜过滤后黄酮含量与上清液相当。储存一定时间后橙汁浑浊度明显降低,橙汁上清稀释液吸光度A₆60 nm与混匀液的稀释液相比只占9%⁵6%;橙汁饮料经过膜过滤后浑浊度与上清液相比也明显降低。可见,总黄酮含量与饮料的浑浊度变化无关。Spearman秩相关性分析显示,只有100%橙汁混匀液的粘度与浑浊度正相关（p<0.01）,总黄酮含量与浑浊度不相关（p>0.05）。对含橙汁饮料,浑浊稳定性降低不影响总黄酮含量水平。
- 橙汁饮料 /
- 总黄酮 /
- 浑浊稳定性 /
- 粘度
Abstract: In order to study the flavonoids distribution in orange juice and orange juice beverage and its relation with the cloud stability,the flavonoids content,turbidity and viscosity of 14 kinds of orange juice beverages were determined.Results showed that the flavonoid contents were between 768~1763 mg / kg in 6 kinds of orange juice,and the proportions in the supernatant were 63% ~83%.In the beverages containing orange juice less than 20%,the flavonoid contents were between 64 ~ 231 mg / kg,with a ratio about 81% ~ 115% in the supernatant,which were much the same as that filtrated by 0.45 μm filter.The cloud stabilization of orange juice stored for certain time was decreased significantly,the absorbance value of the orange juice supernatant diluent at 660 nm was decreased to9% ~ 56% of the mixing liquid. The turbidity of filtered supernatant of orange juice beverage was decreased obviously than its supernatant. Therefore the flavonoids content had no effect on the cloud stabilization of the drinks.Spearman rank correlation analysis showed that for the 100% orange juice,the correlation between viscosity and turbidity was significant( p < 0.01),the flavonoids content was not related with turbidity( p > 0.05). And the flavonoids content of orange juice beverage does not change with the turbidity reducing.
- orange juice /
- flavonoids content /
- cloud stabilization /
- viscosity

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参考文献(11)

[1]	Malik A,Erginkaya Z,Ahmad S,et al.Food Processing:Strategies for Quality Assessment[M].New York:Springer,2014:37-103.
[2]	李琳.橙汁混浊态丧失机理的研究进展[J].饮料工业,2002.5(4):18~21.
[3]	李琳,橙汁可溶性成分对橙汁混浊稳定态的影响研究[J].食品工业科技,2003,24(2):28-30.
[4]	Ellerbee LM.Orange juice cloud stability and the influence of calcium and hesperidin[D].The University of Georgia.2009.
[5]	申寒,李绍振,许洪高,等.椪柑浓缩汁质构重组技术研究[J].食品科技,2013,38(12):83-89.
[6]	谢娇,王华,马亚琴.几种柑橘品种制汁适应性评价研究[J].食品科学,2010,31(17):153-157.
[7]	刘畅,王可兴,潘思轶.果肉性质对酸橙汁流变学特性影响研究[J].食品科学,2006,27(10):92-95.
[8]	郑氏金云,许时婴,谢良.柑桔汁悬浮稳定机理的探讨[J].无锡轻工大学学报,2002,21(4):400-403.
[9]	张鹏阁.混浊型桔汁饮料物理沉淀的研究[J].齐齐哈尔轻工学院学报,1990,6(3):57-60.
[10]	姜发堂,张声华.橙汁中沉淀物的化学本质和前体物的研究[J].湖北工学院学报,1995,10(3):56-60.
[11]	李松岗.实用生物统计[M].北京:北京大学出版社,2002.3.