3 research outputs found
Volatile Compounds in Honey: A Review on Their Involvement in Aroma, Botanical Origin Determination and Potential Biomedical Activities
Volatile organic compounds (VOCs) in honey are obtained from diverse biosynthetic pathways and extracted by using various methods associated with varying degrees of selectivity and effectiveness. These compounds are grouped into chemical categories such as aldehyde, ketone, acid, alcohol, hydrocarbon, norisoprenoids, terpenes and benzene compounds and their derivatives, furan and pyran derivatives. They represent a fingerprint of a specific honey and therefore could be used to differentiate between monofloral honeys from different floral sources, thus providing valuable information concerning the honey’s botanical and geographical origin. However, only plant derived compounds and their metabolites (terpenes, norisoprenoids and benzene compounds and their derivatives) must be employed to discriminate among floral origins of honey. Notwithstanding, many authors have reported different floral markers for honey of the same floral origin, consequently sensory analysis, in conjunction with analysis of VOCs could help to clear this ambiguity. Furthermore, VOCs influence honey’s aroma described as sweet, citrus, floral, almond, rancid, etc. Clearly, the contribution of a volatile compound to honey aroma is determined by its odor activity value. Elucidation of the aroma compounds along with floral origins of a particular honey can help to standardize its quality and avoid fraudulent labeling of the product. Although only present in low concentrations, VOCS could contribute to biomedical activities of honey, especially the antioxidant effect due to their natural radical scavenging potential
Antioxidant properties and phenolic content of sulla (Hedysarum spp.) honeys from Southern Italy
The geographical origin greatly influences the qualitative and nutraceutical characteristics of honey. In
this study, a total of twenty-four sulla honeys from eight different geographical areas of Southern Italy
have been examined for total phenolic content (Folin–Ciocalteu method), antioxidant activity (FRAP and
DPPH assays), colour intensity (ABS450), and identification and quantification of phenolic acids (RPHPLC/
UV-VIS method). The total phenolic content ranged from 47.9 (Potentino honeys) to 248.3 mg
GAE per kg honey (Penisola Sorrentina honeys). The antioxidant activity ranged from 47.06% (Basso
Pollino honeys) to 88.25% (Penisola Sorrentina honeys), and from 98.26 lM Fe (II) (Potentino honeys)
to 786.53 lM Fe (II) (Tarantino honeys) for DPPH and FRAP assays, respectively. Major phenolic acids
identified in analysed samples were gallic, caffeic and ferulic acids. Correlations between the parameters
analysed were statistically significant (P < 0.05). The results of the study showed that the parameters studied
are greatly affected by the peculiarities of their production area