Aromatic profiles and enantiomeric distributions of volatile compounds during the ripening of Dendropanax dentiger honey.

[Display omitted] • The variation of volatile compounds during the ripening stages of DDHs was first studied. • The "fruity" aroma was the dominant aroma characteristic of DDHs and became richer with the increasing maturity. • The enantiomeric content and distribution of linalool oxide A enantiomers may be a potential indicator to identify the maturity of DDHs; • Only the enantiomer R -linalool (OAVs: 5.56–6.14) was found to be an important contributor to the aroma profiles of DDHs at different stages of maturity. Dendropanax dentiger honey (DDH) is a specialty herbal honey from China. Previous research on DDH has mostly focused on its composition and potential chemical markers, no studies have been conducted on the changes in aroma characteristics and chiral odorants during its maturation. Therefore, the present study aims to address the missing parts. The proportions and total concentrations of 185 volatile compounds identified in different classes varied with DDHs ripening. Fourteen common odor-active compounds were identified by odor activity values (OAVs) and GC-olfactometry (GC-O) analysis. The aroma profiles of DDHs were observed to vary at different ripening stages, although the dominant aroma characteristic was "fruity" aroma, which became more pronounced with increasing maturity. The enantiomeric contents and distributions of 7 volatile enantiomers were related to specific physicochemical indicators and the maturity of DDHs, among which the enantiomers of linalool oxide A may be a potential indicator to identify its maturity. Furthermore, precise quantification and OAVs calculation showed that the enantiomer (2 S , 5 S)-linalool oxide A presented the highest concentration (8.83–27.39 ng/mL) and only the enantiomer R -linalool (OAVs: 5.56–6.14) was an important contributor to the aroma profiles of DDHs at different stages of maturity. These results provided a new research idea for quality control and identification of DDHs at different maturity stages. [ABSTRACT FROM AUTHOR]