食品科学 ›› 2016, Vol. 37 ›› Issue (20): 57-62.doi: 10.7506/spkx1002-6630-201620010

• 成分分析 • 上一篇    下一篇

金枪鱼油脱臭过程中脂肪酸含量和挥发性风味成分解析

张红燕,李 晔,袁 贝,竺周斌,王求娟,陈义芳,董丽莎,王朝阳,司开学,韩姣姣,崔晨茜,苏秀榕   

  1. 宁波大学海洋学院,浙江 宁波 315211
  • 收稿日期:2016-10-27 修回日期:2016-10-27 出版日期:2016-10-25 发布日期:2016-12-01
  • 通讯作者: 苏秀榕*
  • 基金资助:

    国家海洋经济创新发展区域示范项目(2013710);宁波市科技局农业与社发重大科技项目(2010C10040);
    宁波市教育局重点学科资助项目(szxl1070);浙江省重中之重学科开放基金项目 (F01728144200)

Changes in Fatty Acid Composition and Volatile Compounds of Tuna Oil Following Deodorization Process

ZHANG Hongyan, LI Ye, YUAN Bei, ZHU Zhoubin, WANG Qiujuan, CHEN Yifang, DONG Lisha, WANG Zhaoyang, SI Kaixue, HAN Jiaojiao, CUI Chenxi, SU Xiurong   

  1. School of Marine Sciences, Ningbo University, Ningbo 315211, ChinaAVs)
  • Received:2016-10-27 Revised:2016-10-27 Online:2016-10-25 Published:2016-12-01
  • Contact: SU Xiurong

摘要:

为探讨金枪鱼油脱臭过程中挥发性物质和脂肪酸含量随温度的变化,运用电子鼻和顶空固相微萃取-气相色谱-质谱联用技术,对加热脱臭鱼油的挥发性成分和脂肪酸含量进行分析。结果表明,鱼油中脂肪酸组成从C14~C22的饱和脂肪酸的含量有所降低,不饱和脂肪酸的含量有所增加。电子鼻能够灵敏地检测到鱼油在加热脱臭过程中气味的变化。利用气相色谱-质谱从原料鱼油、加热150 ℃和200 ℃的脱臭鱼油中分别检出50、38 种和21 种挥发性化合物,包括醇类、醛类、酯类、酮类、烃类、酸类、杂环化合物等。原料鱼油中的辛醛、壬醛、(E)-2-辛烯醛、1-戊烯-3-醇、2-十一烷酮使鱼油具有浓重的腥臭味、土腥味、不愉快脂肪味;150 ℃脱臭鱼油的主要挥发性风味物质是辛醛、壬醛、(E)-2-辛烯醛,其含量有所减少,使得鱼油的腥臭味有所减弱,10-十二碳炔-1-醇、2-丁基-1-辛醇增加了清香、木香和脂肪香;200 ℃脱臭鱼油中辛醛、(E,E)-2,4-庚二烯醛、(E)-2-癸烯醛含量降低,使鱼油呈现较弱的鱼腥味。四氢-2H-吡喃-2-甲醇、2-乙基呋喃、2-戊基呋喃使鱼油呈现一定的油脂气息、青草味、蔬菜香味。

关键词: 鱼油脱臭, 电子鼻, 顶空固相微萃取-气相色谱-质谱联用, 脂肪酸, 主体风味

Abstract:

The present study aimed to investigate the changes in fatty acid composition and volatile compounds of tuna oil
following deodorization by using electronic nose (E-nose) and headspace-solid-phase-microextraction-gas chromatographymass
spectrometry analysis (HS-SPME-GC-MS). Results showed the contents of saturated fatty acids (C14–C22) in tuna
oil decreased whereas unsaturated fatty acids increased following deodorization process. E-nose was able to detect the
changes in volatile compounds of tuna oil with high sensitivity. Before and following deodorization at 150 and 200 ℃, a
total of 50, 38 and 21 volatile compounds namely alcohols, aldehydes, ketones, esters, hydrocarbons, acids and heterocyclic
compounds were identified using GC-MS. The major volatile compounds in tuna oil were identified as octanal, nonanal,
(E)-2-octenal, 1-penten-3-ol and 2-undecanone, which contributed to the unpleasant earthy and fishy smell of tuna oil.
Following deodorization at 150 ℃, the amounts of octanal, nonanal and (E)-2-octenal in tuna oil significantly decreased,
resulting in a significant decrease in its unpleasant earthy and fishy smell, whereas 10-dodecyn-1-ol and 2-butyl-1-octanol
significantly increased, giving a characteristic woody and fatty aroma. A higher deodorization temperature of 200 ℃
significantly decreased the contents of octanal, (E,E)-2,4-heptadienal and (E)-2-decene aldehyde and increased the contents
of tetrahydro-2H-pyran-2-methanol, 2-ethyl-furan, and 2-pentyl furan in tuna oil. Tetrahydropyran-2-methanol, 2-ethyl furan
and 2-pentyl furan were responsible for the fatty, grass and green aroma of tuna oil.

Key words: deodorization fish oil, electronic nose, headspace solid phase microextraction-gas chromatography-mass spectrometry (HS-SPME-GC-MS), fatty acid, volatile compounds

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