Journal
FOOD RESEARCH INTERNATIONAL
Volume 98, Issue -, Pages 59-67Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.foodres.2016.11.012
Keywords
Moscato nero d'Acqui; Phenolic compounds; Free and bound volatile compounds; Dehydrated grapes; Special red wines
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Moscato nero d'Acqui is an Italian aromatic black winegrape variety characterized by a low content of anthocyanins (mostly tri-substituted), a satisfactory content of high molecular mass tannins, and a fair amount of ter penes. The grapes were subjected to a postharvest dehydration process under controlled thermohygrometric conditions (16-18 degrees C, 55-70 RH%, 0.6 m/s air speed) with the aim to produce three different special wine types (fortified, sfursat, and passito) from fresh, partially dehydrated (27 degrees Brix), and withered (36 degrees Brix) grapes, respectively. Chemical traits of produced grapes and wines were then evaluated through spectrophotometric, HPLC, and GC-MS methods. Increased contents of skin phenolic compounds and reduced extractable contents of seed phenolic compounds were observed as dehydration progressed. Few significant differences were found in the anthocyanin profile of grapes, although the relative abundance of coumaroylated anthocyanins was higher in dehydrated grapes. The predominant free volatile compound found in grapes was geraniol, which decreased with increasing water loss, whereas the contents of major glycosylated volatile compounds increased even above the concentration effect. The changes in the phenolic composition among wines agreed with those among grape skins. Fortified wines were chromatically unsatisfactory probably due to the low content of total anthocyanins, whereas sfursat and passito wines meet good chromatic characteristics as a result of the concentration effect during grape dehydration. Fortified and sfursat wines had free aroma profiles richer in 2-phenylethanol and citronellol, whereas passito wines were mainly composed of 2-phenylethanol and 2-phenylethyl acetate, citronellol being the predominant terpenol in all the wine types studied. (C) 2016 Elsevier Ltd. All rights reserved.
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