Gök, Sila BarutYıkmış, SeydiLevent, OkanKarataş, Selen2023-05-062023-05-0620220003-925Xhttps://doi.org/10.53194/0003-925X-73-158https://hdl.handle.net/20.500.11776/11881The aim of the study was to examine the effects of UV-C light applied by a designed reactor on bioactive components of traditionally produced koruk vinegar. Furthermore, microbial load, 5-HMF content, the volatile compounds, sensorial attributes and colour of vinegar were assessed. A reduction of 1.29-log CFUmL(-1) was achieved in total aerobic bacteria by applying a dose of 262.4 mJcm(-2). A total of 22 volatile compounds were determined in the traditionally produced vinegar. Among bioactive compounds, only total phenolic content changed significantly during UV-C treatment while antioxidant activity, total flavonoid and ascorbic acid content was not affected. Although the characteristic pungent sensation, aromatic intensity and richness in aroma of pasteurized vinegar significantly decreased, a non-significant difference in the sensorial properties was determined in all UV-C irradiated vinegar. UV-C treatment has potential for non-thermal pasteurization of koruk vinegar compared to thermal one due to the more preservative of its fresh-like characteristics.en10.53194/0003-925X-73-158info:eu-repo/semantics/closedAccessKoruk vinegarUV-C lightbioactive componentaroma profilesensory attributesPolyphenol Oxidase ActivityFructose Corn SyrupAntioxidant CapacityEscherichia-ColiHeat-TreatmentApple JuiceShelf-LifeVitamin-CUltravioletIrradiationArticle735158167Q4WOS:000928477000004