Abstract
Vinegar stands as a highly appreciated fermented food product due to several functional properties and multiple applications. This work focuses on vinegar production from fruit wines derived from fruit concentrates, to attain a food product with nutritional added value. Four fruit vinegars (orange, mango, cherry and banana), were produced and characterized, with total acidities of 5.3 ± 0.3% for orange, 5.6 ± 0.2% for mango, 4.9 ± 0.4% for cherry and 5.4 ± 0.4% for banana. Acetification showed impact on aroma volatiles, mainly related to oxidative reactions. Minor volatiles associated with varietal aroma were identified, monoterpenic alcohols in orange vinegar, esters in banana vinegar, C13-norisoprenoids in cherry vinegar and lactones in mango vinegar, indicating fruit vinegars differentiated sensory quality. Total antioxidant activity analysis by FRAP, revealed fruit vinegars potential to preserve and deliver fruit functional properties. Antioxidant activity of fruit vinegars, expressed as equivalents of Fe2SO4, was of 11.0 ± 1.67 mmol L−1 for orange, 4.8 ± 0.5 mmol L−1 for mango, 18.6 ± 2.33 mmol L−1 for cherry and 3.7 ± 0.3 mmol L−1 for banana. Therefore, fruit vinegars presented antioxidant activity close to the reported for the corresponding fruit, and between 8 and 40 folds higher than the one found in commercial cider vinegar, demonstrating the high functional potential of these novel vinegar products.
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References
Boidron JN, Chatonnet P, Pons M (1988) Effect of wood on aroma compounds of wine. Connaiss Vigne Vin 22:275–294
Boutou S, Chatonnet P (2007) Rapid headspace solid-phase microextraction/gas chromatography/mass spectrometric assay for the quantitative determination of some of the main odorants causing off-flavours in wine. J Chromatogr A 1141:1–9
Budak NH, Aykin E, Seydim AC, Greene AK, Guzel-Seydim ZB (2014) Functional properties of vinegar. J Food Sci 79:757–764
Callejón RM, Tesfaye W, Torija MJ, Mas A, Troncoso AM, Morales ML (2008) HPLC determination of amino acids with AQC derivatization in vinegars along submerged and surface acetifications and its relation to the microbiota. Eur Food Res Technol 227:93–102
Callejón RM, Tesfaye W, Torija MJ, Mas A, Troncoso AM, Morales ML (2009) Volatile compounds in red wine vinegars obtained by submerged and surface acetification in different woods. Food Chem 113:1252–1259
Cejudo-Bastante MJ, Durán E, Castro R, Rodríguez-Dodero MC, Natera R, García-Barroso C (2013) Study of the volatile composition and sensory characteristics of new Sherry vinegar-derived products by maceration with fruits. LWT Food Sci Technol 50:469–479
Chang R-C, Lee H-C, Ou AS-M (2005) Investigation of the physicochemical properties of concentrated fruit vinegar. J Food Drug Anal 13:356–384
Coelho E, Vilanova M, Genisheva Z, Oliveira JM, Teixeira JA, Domingues L (2015) Systematic approach for the development of fruit wines from industrially processed fruit concentrates, including optimization of fermentation parameters, chemical characterization and sensory evaluation. LWT Food Sci Technol 62:1043–1052
Czerny M, Christlbauer M, Christlbauer M, Fischer A, Granvogl M, Hammer M, Hartl C, Hernandez NM, Schieberle P (2008) Re-investigation on odor thresholds of key food aroma compounds and development of an aroma language based on odor qualities of defined aqueous odorant solutions. Eur Food Res Technol 228:265–273
Escudero A, Gogorza B, Melús MA, Ortín N, Cacho J, Ferreira V (2004) Characterization of the aroma of a wine from Maccabeo. Key role played by compounds with low odor activity values. J Agric Food Chem 47:3303–3308
Étievant P (1991) Volatile compounds in foods and beverages. In: Maarse H (ed) Wine. Marcel Dekker, New York, pp 483–546
Ferreira V, López R, Cacho J (2000) Quantitative determination of the odorants of young red wines from different grape varieties. J Sci Food Agric 80:1659–1667
Ferreira V, Ortin N, Escudero A, López R, Cacho J (2002) Chemical characterization of the aroma of Grenade rosé wines: aroma extract dilution analysis, quantitative determination and sensory reconstitution studies. J Agric Food Chem 50:4048–4054
Fu L, Xu B-T, Xu X-R, Gan R-Y, Zhang Y, Xia E-Q, Li H-B (2011) Antioxidant capacities and total phenolic contents of 62 fruits. Food Chem 129:345–350
Gómez-Míguez MJ, Cacho JF, Ferreira V, Vicario IM, Heredia FJ (2007) Volatile components of Zalema white wines. Food Chem 100:1464–1473
Gülçin İ (2012) Antioxidant activity of food constituents: an overview. Arch Toxicol 86:345
Gullo M, Giudici P (2008) Acetic acid bacteria in traditional balsamic vinegar: phenotypic traits relevant for starter cultures selection. Int J Food Microbiol 125:46–53
Guth J (1997) Quantitation and sensory studies of character impact odorants of different white wine varieties. J Agric Food Chem 45:3027–3032
Kotseridis Y, Baumes R (2000) Identification of impact odorants in Bordeaux red grape juice, in the commercial yeast used for its fermentation, and in the produced wine. J Agric Food Chem 48:400–406
Kulkarni R, Chidley H, Deshpande A, Schmidt A, Pujari K, Giri A, Gershenzon J, Gupta V (2013) An oxidoreductase from ‘Alphonso’ mango catalyzing biosynthesis of furaneol and reduction of reactive carbonyls. SpringerPlus 2:494
La Guerche S, Dauphin B, Pons M, Blancard D, Darriet P (2006) Characterization of some mushroom and earthy off-odors microbially induced by the development of rot on grapes. J Agric Food Chem 54:9193–9200
Lobo V, Patil A, Phatak A, Chandra N (2010) Free radicals, antioxidants and functional foods: impact on human health. Pharmacogn Rev 4:118–126
Meilgaard M (1975) Flavor chemistry of beer part II: flavor and threshold of 239 aroma volatiles. Tech Q Master Brew Assoc Am 12:151–168
Morales ML, Tesfaye W, Garcia-Parrilla MC, Casas JA, Troncoso AM (2002) Evolution of the aroma profile of sherry wine vinegars during an experimental aging in wood. J Agric Food Chem 50:3173–3178
Moreno J, Zea L, Moyano L, Medina M (2005) Aroma compounds as marker of the changes in sherry wines subjected to biological ageing. Food Control 16:333–338
Ribéreau-Gayon J, Peynaud E, Ribéreau-Gayon P, Sudraud P (1975) Traité d’Oenologie: Sciences et Techniques du Vin. Dunod, Paris
Ribéreau-Gayon P, Glories Y, Maujean A, Dubordieu D (2006) Handbook of enology: the chemistry of wine stabilization and treatments, vol 2. Wiley, New York
Sengun IY, Karabiyikli S (2011) Importance of acetic acid bacteria in food industry. Food Control 22:647–656
Siebert T, Smyth HE, Capone DL, Neuwöhner C, Pardon KH, Skouroumounis GK, Herderich MJ, Sefton MA, Pollnitz AP (2005) Stable isotope dilution analysis of wine fermentation products by HS-SPME-GC-MS. Anal Bioanal Chem 381:937–947
Su M, Silva J (2006) Antioxidant activity, anthocyanins, and phenolics of rabbiteye blueberry (Vaccinium ashei) by-products as affected by fermentation. Food Chem 97:447–451
Ubeda C, Callejón RM, Hidalgo C, Torija MJ, Mas A, Troncoso AM, Morales ML (2011) Determination of major volatile compounds during the production of fruit vinegars by static headspace gas chromatography–mass spectrometry method. Food Res Int 44:259–268
Acknowledgements
Authors would like to acknowledge the financial funding of: FruitVinegarDRINK QREN Project (Ref. 23209), Project “BioInd—Biotechnology and Bioengineering for improved Industrial and Agro-Food processes, REF. NORTE-07-0124-FEDER-000028” Co-funded by the Programa Operacional Regional do Norte (ON.2 – O Novo Norte), QREN, FEDER and the FCT Strategic Project Pest OE/EQB/LA0023/2013. Authors would also like to acknowledge the participation of Mendes Gonçalves S.A. and Frulact S.A. staff, for the active input, which led to the work basis and rationale.
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Coelho, E., Genisheva, Z., Oliveira, J.M. et al. Vinegar production from fruit concentrates: effect on volatile composition and antioxidant activity. J Food Sci Technol 54, 4112–4122 (2017). https://doi.org/10.1007/s13197-017-2783-5
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DOI: https://doi.org/10.1007/s13197-017-2783-5