Oxygen Consumption by Red Wines. Part I: Consumption Rates, Relationship with Chemical Composition, and Role of SO2

Autor: Ferreira, V.; Carrascon, V.; Bueno, M.; Ugliano, M.; Fernández Zurbano, Purificación

Tipo de documento: Artículo de revista

Revista: Journal of Agricultural and Food Chemistry. ISSN: 0021-8561. Año: 2015. Número: 51. Volumen: 63. Páginas: 10928-10937.

JCR (datos correspondientes al año 2014):
Edición:
Science  Área: AGRICULTURE, MULTIDISCIPLINARY  Quartil: Q1  Lugar área: 02/56  F. impacto: 2,912 
Edición:
Science  Área: CHEMISTRY, APPLIED  Quartil: Q1  Lugar área: 02/56  F. impacto: 2,912 
Edición:
Science  Área: FOOD SCIENCE & TECHNOLOGY  Quartil: Q1  Lugar área: 02/56  F. impacto: 2,912 

SCIMAGO (datos correspondientes al año 2014):
SJR:
1,148  SNIP: 1,342 

CIRC: GRUPO A - EXCELENCIA

Referencias:

  • Pasteur, M.L., (1875) Etudes sur le Vin., , 2 nd ed. Librairie F. Savy: Paris
  • Ugliano, M., Oxygen Contribution to Wine Aroma Evolution during Bottle Aging (2013) J. Agric. Food Chem., 61, pp. 6125-6136
  • Ugliano, M., Kwiatkowski, M., Vidal, S., Capone, D., Siebert, T., Dieval, J.-B., Aagaard, O., Waters, E.J., Evolution of 3-Mercaptohexanol, Hydrogen Sulfide, and Methyl Mercaptan during Bottle Storage of Sauvignon blanc Wines. Effect of Glutathione, Copper, Oxygen Exposure, and Closure-Derived Oxygen (2011) J. Agric. Food Chem., 59, pp. 2564-2572
  • Ugliano, M., Dieval, J.-B., Siebert, T.E., Kwiatkowski, M., Aagaard, O., Vidal, S., Waters, E.J., Oxygen Consumption and Development of Volatile Sulfur Compounds during Bottle Aging of Two Shiraz Wines. Influence of Pre- and Postbottling Controlled Oxygen Exposure (2012) J. Agric. Food Chem., 60, pp. 8561-8570
  • Ferreira, V., Bueno, M., Franco-Luesma, E., Cullere, L., Fernandez-Zurbano, P., Key Changes in Wine Aroma Active Compounds during Bottle Storage of Spanish Red Wines under Different Oxygen Levels (2014) J. Agric. Food Chem., 62, pp. 10015-10027
  • Caille, S., Samson, A., Wirth, J., Dieval, J.-B., Vidal, S., Cheynier, V., Sensory characteristics changes of red Grenache wines submitted to different oxygen exposures pre and post bottling (2010) Anal. Chim. Acta, 660, pp. 35-42
  • Wirth, J., Caille, S., Souquet, J.M., Samson, A., Dieval, J.B., Vidal, S., Fulcrand, H., Cheynier, V., Impact of post-bottling oxygen exposure on the sensory characteristics and phenolic composition of Grenache rose wines (2012) Food Chem., 132, pp. 1861-1871
  • Gambuti, A., Rinaldi, A., Ugliano, M., Moio, L., Evolution of Phenolic Compounds and Astringency during Aging of Red Wine: Effect of Oxygen Exposure before and after Bottling (2013) J. Agric. Food Chem., 61, pp. 1618-1627
  • Waterhouse, A.L., Laurie, V.F., Oxidation of wine phenolics: A critical evaluation and hypotheses (2006) Am. J. Enol Viticult, 57, pp. 306-313
  • Singleton, V.L., Oxygen with Phenols and Related Reactions in Musts, Wines and Model Systems - Observations and Practical Implications (1987) Am. J. Enol Viticult, 38, pp. 69-77
  • Danilewicz, J.C., Interaction of sulfur dioxide, polyphenols, and oxygen in a wine-model system: Central role of iron and copper (2007) Am. J. Enol Viticult, 58, pp. 53-60
  • Danilewicz, J.C., Seccombe, J.T., Whelan, J., Mechanism of interaction of polyphenols, oxygen, and sulfur dioxide in model wine and wine (2008) Am. J. Enol Viticult, 59, pp. 128-136
  • Laurie, V.F., Zuniga, M.C., Carrasco-Sanchez, V., Santos, L.S., Canete, A., Olea-Azar, C., Ugliano, M., Agosin, E., Reactivity of 3-sulfanyl-1-hexanol and catechol-containing phenolics in vitro (2012) Food Chem., 131, pp. 1510-1516
  • Atanasova, V., Fulcrand, H., Cheynier, W., Moutounet, M., Effect of oxygenation on polyphenol changes occurring in the course of wine-making (2002) Anal. Chim. Acta, 458, pp. 15-27
  • Dimkou, E., Ugliano, M., Dieval, J.B., Vidal, S., Aagaard, O., Rauhut, D., Jung, R., Impact of Headspace Oxygen and Closure on Sulfur Dioxide, Color, and Hydrogen Sulfide Levels in a Riesling Wine (2011) Am. J. Enol. Vitic., 62, pp. 261-269
  • Vivas, N., Glories, Y., Les phénoménes doxydoreduction liés à lélevage en barrique des vins rouges: Aspectd technologiques (1993) Rev. Fr. Oenol., pp. 33-38
  • Vivas, N., Vivas De Gaulejac, N., Nonier, M.F., Quelques aspect cinétiques de la consommation de loxygène et conséquences technologiqes des oxydations dans les vins rouges (2014) Rev. des Oenologues, pp. 27-31
  • Bradshaw, M.P., Barril, C., Clark, A.C., Prenzler, P.D., Scollary, G.R., Ascorbic Acid: A Review of its Chemistry and Reactivity in Relation to a Wine Environment (2011) Crit. Rev. Food Sci. Nutr., 51, pp. 479-498
  • Vivas, N., Glories, Y., Role of oak wood ellagitannins in the oxidation process of red wines during aging (1996) Am. J. Enol Viticult, 47, pp. 103-107
  • Nikolantonaki, M., Waterhouse, A.L., A Method to Quantify Quinone Reaction Rates with Wine Relevant Nucleophiles: A Key to the Understanding of Oxidative Loss of Varietal Thiols (2012) J. Agric. Food Chem., 60, pp. 8484-8491
  • McArdle, J.V., Hoffmann, M.R., Kinetics and Mechanism of the Oxidation of Aquated Sulfur Dioxide by Hydrogen Peroxide at low pH (1983) J. Phys. Chem., 87, pp. 5425-5429
  • Fernandez-Zurbano, P., Ferreira, V., Pena, C., Escudero, A., Serrano, F., Cacho, J.F., Prediction of Oxidative Browning in White Wines as a Function of their Chemical-Composition (1995) J. Agric. Food Chem., 43, pp. 2813-2817
  • Simpson, R.F., Factors Affecting Oxidative Browning of White Wine (1982) Vitis, 21, pp. 233-239
  • Salacha, M.-I., Kallithraka, S., Tzourou, I., Browning of white wines: Correlation with antioxidant characteristics, total polyphenolic composition and flavanol content (2008) Int. J. Food Sci. Technol., 43, pp. 1073-1077
  • Skouroumounis, G.K., Kwiatkowski, M.J., Francis, I.L., Oakey, H., Capone, D.L., Duncan, B., Sefton, M.A., Waters, E.J., The impact of closure type and storage conditions on the composition, colour and flavour properties of a Riesling and a wooded Chardonnay wine during five years storage (2005) Aust. J. Grape Wine Res., 11, pp. 369-384
  • Carrascon, V., Ferreira, V., (2015) Accurate and Sensitive Determination of Free and Total Sulfur Dioxide and Acetaldehyde in Wine by Headspace Gas Chromatography Mass Spectrometry, , IX In Vino Analytica Scientia, Trento (Italy)
  • (2009) Compendium of International Methods of Analysis, , OIV. OIV-MA-AS323-04A Sulfur dioxide. In Sulfur dioxide (Resolution Oeno 377/2009)
  • Rivero-Perez, M.D., Muniz, P., Gonzalez-Sanjose, M.L., Antioxidant profile of red wines evaluated by total antioxidant capacity, scavenger activity, and biomarkers of oxidative stress methodologies (2007) J. Agric. Food Chem., 55, p. 5476
  • Singleton, V.L., Orthofer, R., Lamuela-Raventos, R.M., Analysis of total phenols and other oxidation substrates and antioxidants by means of Folin-Ciocalteu reagent (1999) Methods Enzymology, 299, pp. 152-178. , Packer, L
  • Gonzalvez, A., Armenta, S., Pastor, A., De La Guardia, M., Searching the most appropriate sample pretreatment for the elemental analysis of wines by inductively coupled plasma-based techniques (2008) J. Agric. Food Chem., 56, pp. 4943-4954
  • Saenz-Navajas, M.-P., Avizcuri, J.-M., Ferreira, V., Fernandez-Zurbano, P., Insights on the chemical basis of the astringency of Spanish red wines (2012) Food Chem., 134, pp. 1484-1493
  • Saenz-Navajas, M.-P., Echavarri, F., Ferreira, V., Fernandez-Zurbano, P., Pigment composition and color parameters of commercial Spanish red wine samples: Linkage to quality perception (2011) Eur. Food Res. Technol., 232, pp. 877-887
  • Gonzalez-Hernandez, M., Avizcuri-Inac, J.-M., Dizy, M., Fernandez-Zurbano, P., Ultra Performance Liquid Chromatography Coupled to Ultraviolet-Vis and Mass Spectrometry Detector for Screening of Organic Acids and Polyphenols in Red Wine (2014) High-Performance Liquid Chromatography (HPLC): Principles, Practices and Procedures, , Zuo, Y. Nova Science Pub Inc: New York
  • Sun, B.S., Leandro, C., Ricardo-Da-Silva, J.M., Spranger, I., Separation of grape and wine proanthocyanidins according to their degree of polymerization (1998) J. Agric. Food Chem., 46, pp. 1390-1396
  • Gonzalo-Diago, A., Dizy, M., Fernandez-Zurbano, P., Taste and Mouthfeel Properties of Red Wines Proanthocyanidins and Their Relation to the Chemical Composition (2013) J. Agric. Food Chem., 61, pp. 8861-8870
  • Ribéreau-Gayon, J., (1931) Contribution À Létude des Oxydations et Réductions dans les Vins, , University de Bordeaux
  • Danilewicz, J.C., Mechanism of Autoxidation of Polyphenols and Participation of Sulfite in Wine: Key Role of Iron (2011) Am. J. Enol. Vitic., 62, pp. 319-328
  • Danilewicz, J.C., Reactions Involving Iron in Mediating Catechol Oxidation in Model Wine (2013) Am. J. Enol. Vitic., 64, pp. 316-324
  • Danilewicz, J.C., Wallbridge, P.J., Further Studies on the Mechanism of Interaction of Polyphenols, Oxygen, and Sulfite in Wine (2010) Am. J. Enol Viticult, 61, pp. 166-175
  • Ribereau-Gayon, J., Peynaud, E., (1961) Traite Dœnologie, 2. , Ch. Béranger: Paris
  • Durner, D., Ganss, S., Fischer, U., Monitoring Oxygen Uptake and Consumption during Microoxygenation Treatments before and after Malolactic Fermentation (2010) Am. J. Enol. Vitic., 61, pp. 465-473
  • Danilewicz, J.C., Review of Oxidative Processes in Wine and Value of Reduction Potentials in Enology (2012) Am. J. Enol. Vitic., 63, pp. 1-10
  • Kennedy, J.A., Saucier, C., Glories, Y., Grape and wine phenolics: History and perspective (2006) Am. J. Enol Viticult, 57, pp. 239-248
  • Ribéreau-Gayon, P., Glories, Y., Maujean, A., Dubourdieu, D., (2000) Handbook of Enology. Vol 2. The Chemistry of Wine Stabilization and Treatments, , Wiley &
  • Sons: New York
  • Danilewicz, J.C., Review of reaction mechanisms of oxygen and proposed intermediate reduction products in wine: Central role of iron and copper (2003) Am. J. Enol Viticult, 54, pp. 73-85
  • Gislason, N.E., Currie, B.L., Waterhouse, A.L., Novel Antioxidant Reactions of Cinnamates in Wine (2011) J. Agric. Food Chem., 59, pp. 6221-6226
  • Moran, J.F., Klucas, R.V., Grayer, R.J., Abian, J., Becana, M., Complexes of iron with phenolic compounds from soybean nodules and other legume tissues: Prooxidant and antioxidant properties (1997) Free Radical Biol. Med., 22, pp. 861-870
  • Jovanovic, S.V., Simic, M.G., Steenken, S., Hara, Y., Iron complexes of gallocatechins. Antioxidant action or iron regulation? (1998) J. Chem. Soc., Perkin Trans. 2, pp. 2365-2369
  • Keceli, T., Gordon, M.H., Ferric ions reduce the antioxidant activity of the phenolic fraction of virgin olive oil (2002) J. Food Sci., 67, pp. 943-947
  • Andjelkovic, M., Van Camp, J., De Meulenaer, B., Depaemelaere, G., Socaciu, C., Verloo, M., Verhe, R., Iron-chelation properties of phenolic acids bearing catechol and galloyl groups (2006) Food Chem., 98, pp. 23-31
  • Gerard, C., Chehhal, H., Stability of metal complexes with ligands of biological interest: Dopamine and adrenaline (1997) Bulletin de la Societe Chimique de France, 134, pp. 1069-1074
  • Clark, A.C., Scollary, G.R., Medium exchange stripping potentiometry for the measurement of labile copper in white wine (2006) Electroanalysis, 18, pp. 1793-1799
  • Pohl, P., Sergiel, I., Evaluation of the Total Content and the Operationally Defined Species of Copper in Beers and Wines (2009) J. Agric. Food Chem., 57, pp. 9378-9384
  • Roland, A., Schneider, R., Development and validation of a high-throughput analysis of glutathione in grapes, musts and wines by Stable Isotope Dilution Assay and LC-MS/MS (2015) Food Chem., 177, pp. 152-157
  • Cimino, F., Sulfaro, V., Trombetta, D., Saija, A., Tomaino, A., Radical-scavenging capacity of several Italian red wines (2007) Food Chem., 103, pp. 75-81
  • Herbst-Johnstone, M., Nicolau, L., Kilmartin, P.A., Stability of Varietal Thiols in Commercial Sauvignon blanc Wines (2011) Am. J. Enol. Vitic., 62, pp. 495-502
  • Sonni, F., Clark, A.C., Prenzler, P.D., Riponi, C., Scollary, G.R., Antioxidant Action of Glutathione and the Ascorbic Acid/Glutathione Pair in a Model White Wine (2011) J. Agric. Food Chem., 59, pp. 3940-3949
  • Morozova, K., Schmidt, O., Schwack, W., Effect of headspace volume, ascorbic acid and sulphur dioxide on oxidative status and sensory profile of Riesling wine (2015) Eur. Food Res. Technol., 240, pp. 205-221
  • Cacho, J., Castells, J.E., Esteban, A., Laguna, B., Sagrista, N., Iron, copper, and manganese influence on wine oxidation (1995) Am. J. Enol Viticult, 46, pp. 380-384
  • Elias, R.J., Waterhouse, A.L., Controlling the Fenton Reaction in Wine (2010) J. Agric. Food Chem., 58, pp. 1699-1707
  • Fazio, T., Warner, C.R., A review of sulphites in foods: Analytical methodology and reported findings (1990) Food Addit. Contam., 7, pp. 433-454