Due to its ornamental and medicinal value, pear flower has been historically loved and used in China. However, the current understanding of their odor-active compounds and aroma profiles is rather limited. This work aimed to evaluate and compare the overall aroma profile of pear flowers; the volatiles in flowers of seven pear cultivars (Anli, Bayuesu, Golden, Brown peel, KorlaXiangli, Lyubaoshi, Xizilü) were analyzed using solid-phase microextraction–gas chromatography-mass spectrometry (SPME-GC-MS). A total of 93 volatile compounds were identified and quantified within the amount of volatiles in the range of 62.7–691.8 μg kg−1 (FW) and showed high and significant variability in different cultivars. Anli and Brown peel flowers showed a relatively higher volatile abundance, while KorlaXiangli flowers were significantly lower than other cultivars. Although the composition of volatiles depended on the existence of different chemical classes, the odor activity values (OAVs) and odor descriptions showed some aldehydes were part of their main peculiarities and were considered as the basic active odorants that presented strong intensity of citrus and floral odor. Moreover, multivariate analysis showed the pear flower of different cultivars could be arranged in different clusters by the identified odorants. This study provides first-hand knowledge regarding pear flower aroma profiles, and that the cultivar differences were critical for the overall pattern.
SummaryPeach is a highly significant economic fruit renowned for its juicy flesh, delectable taste, and pleasant aroma, which has made it a consumer favourite. Improving fruit quality often involves enhancing its aroma, as it is widely acknowledged that the aroma of a fruit plays a crucial role. However, the formation of aroma volatiles is dynamic and varies with fruit development and ripening and is closely linked to genetic background, cultivation management, and post‐harvest treatment. In recent years, many studies have been conducted to investigate the biosynthetic pathways involved in generating fruit aroma. However, the understanding of the underlying regulatory mechanisms remains limited. With the advancement in molecular biology and multi‐omics techniques, researchers have gained fresh insights into the molecular functions of peach genes, which holds significant implications for enhancing fruit flavour and advancing modern breeding programs. This review aims to summarise the most recent findings pertaining to aroma volatile compounds, shed light on the underlying regulatory mechanisms, and dissect the primary fields of peach fruit aroma research. Its purpose is to provide critical information that will facilitate a profound investigation into the specific components responsible for peach aroma and the mechanisms by which they are regulated.
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