Journal
FOODS
Volume 12, Issue 4, Pages -Publisher
MDPI
DOI: 10.3390/foods12040837
Keywords
peach; HS-SPME; GC-MS; critical aroma compounds; OPLS-DA; SUS plots
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In this study, the peach aroma was analyzed using HS-SPME/GC-MS, and the primary aroma-active compounds were identified using OAV values. Chemometrics methods were then employed to determine five critical aroma compounds. The potential chemical basis of the odors was sought through sensory evaluation. This study provides a theoretical and practical foundation for geographical origin traceability and quality evaluation.
It is essential to seek the critical aroma compounds to identify the origins of peach as well as provide a guidance for quality evaluation. In this study, the peach was characterized by HS-SPME/GC-MS. Subsequently, the odor activity value (OAV) was calculated to specify the primary aroma-active compounds. Afterwards, the chemometrics methods were employed to explore the potentially critical aroma on the basis of p value, fold change (FC), S-plot, jack-knifing confidence interval, variable importance for projection (VIP), and the Shared and Unique Structures (SUS) plots. As a result, five compounds (methyl acetate, (E)-hex-2-enal, benzaldehyde, [(Z)-hex-3-enyl] acetate, and 5-ethyloxolan-2-one) were considered as critical aromas. Moreover, the multi-classification model was developed with an outstanding performance (accuracy of 100%) using the five critical aroma. Moreover, the potential chemical basis of odors was sought through sensory evaluation. In addition, this study provides the theoretical and practical foundation for geographical origin traceability and quality evaluation.
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