How volatile composition facilitates olfactory discrimination of fat content in beef and pork.

Shuo Mu, Nan Ni, Yuting Zhu, Sanne Boesveldt, Markus Stieger
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Abstract

Foods differing in fat content can be distinguished through olfaction alone. The mechanisms underlying the ability of humans to discriminate between foods differing in fat content through olfaction are underexplored. In this study, beef and pork samples were prepared (raw and roasted) with low (muscle tissue; raw: 2-5%; roasted: 5%), medium (muscle tissue with lard; raw: 25-30%; roasted: 36-44%), and high (lard; raw: 40-42%; roasted: 69-70%) fat content. Olfactory triangle discrimination tests and ranking tests were performed to explore whether humans can discriminate and rank fat content of the samples through orthonasal olfaction. Headspace-Solid Phase Micro Extraction-Gas Chromatography-Mass Spectrometry (SPME-GC-MS) was used to characterize the volatile compound composition of the headspace of samples differing in fat content. Partial least-squares regression and partial least squares-discriminant analysis were performed to determine the volatile compounds that were responsible for olfactory fat content discrimination. We found that fat content in both raw and roasted samples can be distinguished through orthonasal olfaction. Perceived odor differences did not always contribute to olfactory identification of fat content. Roasted beef and pork meats with higher fat content had more abundant fatty acids, aldehydes, and ketones. Phthalic acid, isobutyl 2-ropylpentyl ester, and carbon disulfide facilitated the olfactory discrimination of fat content in raw pork and beef samples. 2-Methyl-propanal, benzaldehyde, 1-hydroxy-2-propanone, 2,3-pentanedione, 2,5-octanedione, and 2-butanone contributed to odor differences of roasted beef samples differing in fat content. We conclude that beef and pork samples differing in fat content differ in volatile compound composition of the headspace, and that these differences facilitate discrimination between samples differing in fat content based on olfaction alone.

挥发性成分如何促进牛肉和猪肉中脂肪含量的嗅觉辨别。
脂肪含量不同的食物仅凭嗅觉就能辨别出来。人类通过嗅觉区分不同脂肪含量食物的能力背后的机制尚未得到充分探索。在这项研究中,牛肉和猪肉样品(生的和烤的)制备低(肌肉组织;原料:2 - 5%;烤:5%),中等(带猪油的肌肉组织;生:25 - 30%;烤:36-44%),和高(猪油;生:40 - 42%;烤:69-70%)脂肪含量。通过嗅觉三角判别试验和排序试验,探讨人类是否能够通过嗅觉对样品中的脂肪含量进行判别和排序。采用顶空-固相微萃取-气相色谱-质谱法(SPME-GC-MS)对不同脂肪含量样品的顶空挥发性化合物组成进行了表征。采用偏最小二乘回归和偏最小二乘判别分析确定了导致嗅觉脂肪含量判别的挥发性化合物。我们发现原料和烘烤样品中的脂肪含量都可以通过正交鼻嗅觉来区分。感知到的气味差异并不总是有助于嗅觉识别脂肪含量。脂肪含量高的烤牛肉和猪肉含有更丰富的脂肪酸、醛类和酮类。邻苯二甲酸、异丁基- 2-丙基戊酯和二硫化碳有助于原料猪肉和牛肉样品中脂肪含量的嗅觉辨别。2-甲基丙烷、苯甲醛、1-羟基-2-丙烷、2,3-戊二酮、2,5-辛二酮和2-丁酮是造成不同脂肪含量烤牛肉气味差异的原因。我们得出的结论是,脂肪含量不同的牛肉和猪肉样品的顶空挥发性化合物组成也不同,这些差异有助于仅根据嗅觉区分脂肪含量不同的样品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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