Comparative study of aromatic compounds in fruit wines from raspberry, strawberry, and mulberry in central Shaanxi area

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Feng, Yiming ; Liu, Min ; Ouyang, Yanan ; Zhao, Xianfang ; Ju, Yanlun ; Fang, Yulin (2015)
  • Publisher: Co-Action Publishing
  • Journal: Food & Nutrition Research, volume 59 (issn: 1654-6628, eissn: 1654-661X)
  • Related identifiers: pmc: PMC4663194, doi: 10.3402/fnr.v59.29290
  • Subject: Nutrition. Foods and food supply | Food Related Nutrition | raspberry | Original Article | TX341-641 | romatic compounds; Raspberry;Strawberry; Mulberry; | aroma compounds | strawberry | solid-phase microextraction | mulberry | Food science

Background: Although grape wines have firmly dominated the production and consumption markets of fruit wines, raspberry, strawberry, and mulberry have been utilized to make wines because of their joyful aroma and high contents of polyphenolic phytochemicals and essential fatty acids. However, little is known about aromatic compounds of the wines produced from these three fruits.Methods: The aromatic composition of fruit wines produced from raspberry, strawberry, mulberry, and red grape was analyzed by GC-MS. Odor activity values (OAVs) and relative odor contributions (ROCs) were used to estimate the sensory contribution of the aromatic compounds to the overall flavor of the wines.Results: In strawberry, raspberry, and mulberry wines, 27, 30, and 31 odorants were detected, respectively. Alcohols formed the most abundant group, followed by esters and acids. The grape wine contained a wider variety (16 types) of alcohols, and 4-methyl-2-pentanol and 2,3-butanediol were not present in the three fruit wines. The quantity of esters in raspberry (1.54%) and mulberry wines (2.08%) were higher than those of strawberry wine (0.78%), and mulberry wine contained more types of esters. There were no significant differences of acids between the three fruit wines and the control wine. In addition, 2-heptanone, 2-octanone, 2-nonanone, and 2-undecanone were unique to raspberry wine, and nonanal was present only in mulberry wine. The indistinguishable aroma of the three fruit wines was attributed to the dominance of fruity and floral odor components derived from ethyl esters of fatty acids and their contributions to the global aroma of the three fruit wines.Conclusion: The present study demonstrated that there were significant differences in the volatile components of fruit wines made from raspberry, strawberry, and mulberry. The aroma compounds were more abundant in the raspberry and mulberry wines than in the strawberry wine, but the quality of strawberry wine was superior to raspberry and mulberry wines.Keywords: aroma compounds; solid-phase microextraction; strawberry; raspberry; mulberry(Published: 27 November 2015)Citation: Food & Nutrition Research 2015, 59: 29290 - http://dx.doi.org/10.3402/fnr.v59.29290
  • References (41)
    41 references, page 1 of 5

    1. Jagtap UB, Bapat VA. Phenolic composition and antioxidant capacity of wine prepared from custard apple (Annona squamosa L.) fruits. J Food Process Preserv 2015; 38: E175 82.

    2. Bradish CM, Yousef GG, Ma GY, Perkins-Veazie P, Fernandez GE. Anthocyanin, carotenoid, tocopherol, and ellagitannin content of red raspberry cultivars grown under field or high tunnel cultivation in the Southeastern United States. J Am Soc Hortic Sci 2015; 140: E163 71.

    3. Ha¨kkinen S, Heinonen M, Ka¨renlampi S, Mykka¨nen H, Ruuskanen J, To¨ rro¨ nen R. Screening of Selected Flavonoids and Phenolic Acids in 19 Berries. Food Res Int 1999; 32: E345 53.

    4. Ross HA, McDougall GJ, Stewart D. Antiproliferative activity is predominantly associated with ellagitannins in raspberry extracts. Phytochemistry 2007; 68: E218 28.

    5. Cekic C, Ozgen M. Comparison of antioxidant capacity and phytochemical properties of wild and cultivated red raspberries (Rubus idaeus L.). J Food Compos Anal 2010; 23: E540 4.

    6. Isik E, Sahin S, Demir C, Turkben C. Determination of total phenolic content of raspberry and blackberry cultivars by immobilized horseradish peroxidase bioreactor. J Food Compos Anal 2011; 24: E944 9.

    7. Lambert Y, Demazeau G, Largeteau A, Bouvier JM Changes in aromatic volatile composition of strawberry after high pressure treatment. Food Chem 1999; 67: E7 16.

    8. Jacques AC, Chaves FC, Zambiazi RC, Brasil MC, Caramao EB. Bioactive and volatile organic compounds in Southern Brazilian blackberry (Rubus fruticosus) fruit cv. Tupy. Food Sci Technol 2014; 34: E636 43.

    9. Modise DM. Does freezing and thawing affect the volatile profile of strawberry fruit (Fragaria x ananassa Duch.)? Biol Technol 2008; 50: E25 30.

    10. Ercisli S, Orhan E. Chemical composition of white (Morus alba), red (Morus rubra) and black (Morus nigra) mulberry fruits. Food Chem 2007; 103: E1380 4.

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