食品科学 ›› 2020, Vol. 41 ›› Issue (22): 271-278.doi: 10.7506/spkx1002-6630-20191008-046

• 成分分析 • 上一篇    下一篇

基于GC-O、OAV和S型曲线法研究西梅特征香气

张翼鹏,廖头根,何邦华,牛云蔚,朱建才,王明锋   

  1. (1.云南中烟工业有限责任公司技术中心,云南 昆明 650231;2.上海应用技术大学香料香精技术与工程学院,上海 201418)
  • 出版日期:2020-11-25 发布日期:2020-11-26
  • 基金资助:
    中国烟草总公司科技项目(110201802001)

Identification of Characteristic Aroma Compounds in Prunes Using Gas Chromatography-Olfactometry, Odor Activity Value and S-curve Method

Zhang Yipeng, Liao Tougen, HE Banghua, NIU Yunwei, ZHU Jiancai, WANG Mingfeng   

  1. (1. Technology Center, China Tobacco Yunnan Industrial Co. Ltd., Kunming 650231, China; 2. School of Perfume and Aroma Technology, Shanghai Institute of Technology, Shanghai 201418, China)
  • Online:2020-11-25 Published:2020-11-26

摘要: 通过对3 个不同品种西梅进行气相色谱-质谱、气相色谱-硫磷检测器测定,分别鉴定出38、35、32 种非含硫香气成分和4 种含硫化合物,主要香气成分为己醇(453.14~6 836.14 μg/kg)、(E)-2-己烯醛(926.67~4 153.65 μg/kg)、己醛(438.72~3 567.04 μg/kg)、叶醇(194.26~608.03 μg/kg)、苯乙醛(18.46~446.06 μg/kg)。而通过气相色谱-嗅闻和香气活性值实验,显示乙位突厥烯酮、己醇、己醛、2-甲基丁醛、(E)-2-己烯醛、3-甲硫基丙醛等具有较高的数值,说明这些成分是西梅主要特征性香气成分。进一步对西梅样品和特征香气成分进行主成分分析,发现不同西梅与特性香气之间的相关性不一致,表明不同品种西梅之间的香气成分有明显差异。最后,选择己醛、乙位突厥烯酮、3-甲硫基丙醛、反-2-戊烯醛4 个香气成分,应用S型曲线法验证西梅特征香气鉴定准确性。结果表明,对西梅香气贡献程度大的香气成分对重组液阈值的降低效果最显著,即这些成分可以明显地提高重组液香气强度。对不同品种西梅的特征香气成分的研究,并找出西梅香气的差异,为西梅的有效利用提供科学依据。

关键词: 西梅;气相色谱-质谱;气相色谱-嗅闻;香气活性值;特征香气成分;S型曲线法

Abstract: Thirty-eight, 35 and 32 non-sulfur aroma compounds were identified in three different varieties of prunes, respectively and 4 sulfur-containing compounds in each variety using gas chromatography-mass spectrometry (GC-MS) and gas chromatography-flame photometric detection (GC-FPD). Hexanol (453.14–6 836.14 μg/kg), (E)-2-hexenal (926.67–4 153.65 μg/kg), hexanal (438.72–3 567.04 μg/kg), (Z)-2-hexenol (194.26–608.03 μg/kg), and phenylacetaldehyde (18.46–446.06 μg/kg) were identified as the main compounds. The results of gas chromatography-olfactometry (GC-O) and odor activity value (OAV) showed higher values for β-damascenone, hexanol, hexanal, 2-methybutanal, (E)-2-hexenal, and 3-methylthiopropanal, indicating that these compounds contribute greatly to the characteristic aroma of prunes. Furthermore, principal component analysis (PCA) revealed significant differences in aroma compounds among different varieties of prunes. Finally, four aroma compounds (β-damascenone, hexanal, 3-methylthiopropanal and (E)-2-pentenal) were selected to verify the accuracy of aroma identification of prunes by S-curve method. The results showed that the aroma compounds contributing greatly to the aroma of prunes had the most significant effects on reducing the threshold of the recombinant liquid and consequently could improve the aroma intensity. This study provides a scientific basis for the effective utilization of prunes.

Key words: prunes; gas chromatography-mass spectrometry; gas chromatography-olfactometry; odor activity value; characteristic compounds; S-curve

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