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中国精品科技期刊2020
牛志雅,王亚杰,张高虔,等. 基于GC-IMS技术分析五种市售不同工艺油莎豆油理化品质与风味差异[J]. 华体会体育,2024,45(1):258−267. doi: 10.13386/j.issn1002-0306.2023030018.
引用本文: 牛志雅,王亚杰,张高虔,等. 基于GC-IMS技术分析五种市售不同工艺油莎豆油理化品质与风味差异[J]. 华体会体育,2024,45(1):258−267. doi: 10.13386/j.issn1002-0306.2023030018.
NIU Zhiya, WANG Yajie, ZHANG Gaoqian, et al. Analysis of Physicochemical Quality and Flavor Differences of Five Commercially Available Tiger Nut Oils with Different Processes Based on GC-IMS Technique[J]. Science and Technology of Food Industry, 2024, 45(1): 258−267. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023030018.
Citation: NIU Zhiya, WANG Yajie, ZHANG Gaoqian, et al. Analysis of Physicochemical Quality and Flavor Differences of Five Commercially Available Tiger Nut Oils with Different Processes Based on GC-IMS Technique[J]. Science and Technology of Food Industry, 2024, 45(1): 258−267. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023030018.

基于GC-IMS技术分析五种市售不同工艺油莎豆油理化品质与风味差异

Analysis of Physicochemical Quality and Flavor Differences of Five Commercially Available Tiger Nut Oils with Different Processes Based on GC-IMS Technique

  • 摘要: 为研究市售不同工艺油莎豆油理化品质与风味的差异性,采用气相离子迁移谱(Gas Chromatography-Ion Mobility Spectroscopy,GC-IMS)技术结合主成分分析法对比不同工艺(物理压榨、热榨、亚临界萃取、高压冷榨和冷榨工艺)油莎豆油挥发性化合物之间的差异性。GC-IMS结果显示,不同工艺油莎豆油中共鉴定出76种挥发性化合物,其中包括酯类12种、醇类16种、醛类29种、酮类9种、酸类5种、呋喃类3种、吡嗪类1种、硫类1种。热榨组醛类、酯类和呋喃类物质相对含量较高(53.54%,13.06%,5.41%)。不同工艺油莎豆油风味差异性主要来源于四种关键风味物质:1-烯-3-辛醇、壬醛、(E)-2-辛烯醛和己醛。主成分分析(Principal Component Analysis,PCA)结果表明PC1和PC2分别为48.7%和30.1%,累计差异贡献率为78.8%,不同工艺油莎豆油风味物质差异显著,能够对不同工艺油莎豆油良好区分。Pearson相关性分析结果表明不同工艺油莎豆油b*值与酸价、过氧化值、p-丙二醛值和1-烯-3-辛醇之间呈显著正相关(0.57<r<0.88,P<0.05)。本研究结对市售油莎豆油生产加工、理论研究和质量检测等领域具有一定的参考价值。

     

    Abstract: In order to evaluate the differences in physicochemical quality and flavor of commercially edible tiger nut oil, gas chromatography-ion mobility spectroscopy (GC-IMS) combined with principal component analysis was used to compare the volatile compounds in tiger nut oil from different extraction methods (physical pressing, hot pressing, subcritical extraction, high-pressure cold pressing and cold pressing). The GC-IMS results showed that 76 volatile compounds including 12 esters, 16 alcohols, 29 aldehydes, 9 ketones, 5 acids, 3 furans, 1 pyrazine and 1 sulfur compound were identified in the oil from different extraction methods. The relative content of aldehydes, esters and furans (53.54%, 13.06%, 5.41%) in the hot-pressing group were higher than others. The flavor differences of tiger nut oil from different processes were mainly derived from four key flavor substances as 1-octen-3-ol, nonanal, (E)-2-octenal and hexanal. The results of principal component analysis (PCA) showed that PC1 and PC2 were 48.7% and 30.1%, respectively, with a cumulative difference contribution of 78.8%, and the differences in volatile compounds between different processes were significant, which could be well distinguished by different extraction methods. The results of pearson correlation analysis showed that there was a significant positive correlation between b* value and acid value, peroxide value, p-malondialdehyde value and 1-octen-3-ol (0.57<r<0.88, P<0.05). The research could provide some reference value for the production and processing, theoretical research and quality inspection of commercial tiger nut oil.

     

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