Micro-oxygenation and oak chip treatments of red wines: effects on colour-related phenolics, volatile composition and sensory characteristics. Part II: Merlot wines.

[1]  J. López-Roca,et al.  Oak barrel maturation vs. micro-oxygenation: Effect on the formation of anthocyanin-derived pigments and wine colour , 2010 .

[2]  I. Nevares,et al.  Micro-oxygenation strategy depends on origin and size of oak chips or staves during accelerated red wine aging. , 2010, Analytica chimica acta.

[3]  S. Nixdorf,et al.  Brazilian red wines made from the hybrid grape cultivar Isabel: phenolic composition and antioxidant capacity. , 2010, Analytica chimica acta.

[4]  M. Díaz-Maroto,et al.  Comparison of extraction methods for volatile compounds of Muscat grape juice. , 2009, Talanta.

[5]  M. Ortega-Heras,et al.  The influence of oak wood chips, micro-oxygenation treatment, and grape variety on colour, and anthocyanin and phenolic composition of red wines , 2009 .

[6]  A. Velders,et al.  Flavonol 3-O-glycosides series of Vitis vinifera Cv. Petit Verdot red wine grapes. , 2009, Journal of agricultural and food chemistry.

[7]  V. Ferreira,et al.  Effect of micro-oxygenation on the evolution of aromatic compounds in wines: Malolactic fermentation and ageing in wood , 2009 .

[8]  R. Callejón,et al.  Defining the typical aroma of sherry vinegar: sensory and chemical approach. , 2008, Journal of agricultural and food chemistry.

[9]  R. Callejón,et al.  Targeting key aromatic substances on the typical aroma of sherry vinegar. , 2008, Journal of agricultural and food chemistry.

[10]  M. Ortega-Heras,et al.  Importance of chip selection and elaboration process on the aromatic composition of finished wines. , 2008, Journal of agricultural and food chemistry.

[11]  D. Dubourdieu,et al.  Identification of volatile compounds responsible for prune aroma in prematurely aged red wines. , 2008, Journal of agricultural and food chemistry.

[12]  M. González-Sanjosé,et al.  Changes in the volatile composition of red wines during aging in oak barrels due to microoxygenation treatment applied before malolactic fermentation , 2008 .

[13]  S. Gómez-Alonso,et al.  HPLC analysis of diverse grape and wine phenolics using direct injection and multidetection by DAD and fluorescence , 2007 .

[14]  M. Schwarz,et al.  Formation of hydroxyphenyl-pyranoanthocyanins in Grenache wines: precursor levels and evolution during aging. , 2007, Journal of agricultural and food chemistry.

[15]  S. Gómez-Alonso,et al.  Flavonol profiles of Vitis vinifera red grapes and their single-cultivar wines. , 2007, Journal of agricultural and food chemistry.

[16]  M. Ortega-Heras,et al.  Colour stabilization of red wines by microoxygenation treatment before malolactic fermentation , 2007 .

[17]  M. Díaz-Maroto,et al.  Aroma potential of Albillo wines and effect of skin-contact treatment , 2007 .

[18]  G. Arfelli,et al.  Influence of chips, lees and micro-oxygenation during aging on the phenolic composition of a red Sangiovese wine , 2007 .

[19]  J. Rivas-Gonzalo,et al.  Pigment Profiles in Monovarietal Wines Produced in Uruguay , 2006, American Journal of Enology and Viticulture.

[20]  J. López-Roca,et al.  Effect of Microoxygenation on Anthocyanin and Derived Pigment Content and Chromatic Characteristics of Red Wines , 2006, American Journal of Enology and Viticulture.

[21]  Francisco Carrau,et al.  Aging effect on the pigment composition and color of Vitis vinifera L. Cv. Tannat wines. Contribution of the main pigment families to wine color. , 2006, Journal of agricultural and food chemistry.

[22]  C. Santos-Buelga,et al.  Influence of micro-oxygenation treatment before oak aging on phenolic compounds composition, astringency, and color of red wine. , 2006, Journal of agricultural and food chemistry.

[23]  J. Rivas-Gonzalo,et al.  Changes in the detailed pigment composition of red wine during maturity and ageing: A comprehensive study , 2006 .

[24]  M. Díaz-Maroto,et al.  Volatile composition and sensory characteristics of Chardonnay wines treated with American and Hungarian oak chips , 2006 .

[25]  Isidro Hermosín Gutiérrez,et al.  Phenolic composition and magnitude of copigmentation in young and shortly aged red wines made from the cultivars, Cabernet Sauvignon, Cencibel, and Syrah , 2005 .

[26]  T. Cerdán,et al.  Accumulation of volatile compounds during ageing of two red wines with different composition , 2004 .

[27]  M. Ortega-Heras,et al.  Changes in wine volatile compounds of varietal wines during ageing in wood barrels , 2004 .

[28]  J. Rivas-Gonzalo,et al.  Separation of pyranoanthocyanins from red wine by column chromatography , 2004 .

[29]  M. Schwarz,et al.  Investigations on anthocyanins in wines from Vitis vinifera cv. pinotage: factors influencing the formation of pinotin A and its correlation with wine age. , 2004, Journal of agricultural and food chemistry.

[30]  Isidro Hermosín Gutiérrez Influence of ethanol content on the extent of copigmentation in a cencibel young red wine. , 2003 .

[31]  J. Pérez-Trujillo,et al.  Impact odorants of different young white wines from the Canary Islands. , 2003, Journal of agricultural and food chemistry.

[32]  P. Iland,et al.  Formation of vitisin A during red wine fermentation and maturation , 2003 .

[33]  R. Gómez,et al.  Evolución de las características cromáticas y organolépticas de vinos tintos jóvenes de la variedad Cencibel durante su almacenamiento en botella , 2003 .

[34]  M. Nikfardjam,et al.  Micro-oxygenation research at Lincoln University Part 3: Polyphenolic analysis of Cabernet Sauvignon wine under the application of micro-oxigenation , 2003 .

[35]  J. McCord Application of toasted oak and micro-oxygenation to ageing of Cabernet Sauvignon wines , 2003 .

[36]  Véronique Cheynier,et al.  Effect of oxygenation on polyphenol changes occurring in the course of wine-making , 2002 .

[37]  F. Pardo,et al.  Influence of oak wood on the aromatic composition and quality of wines with different tannin contents. , 2002, Journal of agricultural and food chemistry.

[38]  B. Gump,et al.  Comparison of Analytical Methods for Prediction of Prefermentation Nutritional Status of Grape Juice , 2002, American Journal of Enology and Viticulture.

[39]  M. Aznar,et al.  Identification and quantification of impact odorants of aged red wines from Rioja. GC-olfactometry, quantitative GC-MS, and odor evaluation of HPLC fractions. , 2001, Journal of agricultural and food chemistry.

[40]  J. Rivas-Gonzalo,et al.  Color and stability of pigments derived from the acetaldehyde-mediated condensation between malvidin 3-O-glucoside and (+)-catechin. , 2001, Journal of agricultural and food chemistry.

[41]  A. Amati,et al.  Vino nel legno o legno nel vino?: i risultati delle esperienze di uso di chips in Italia , 2001 .

[42]  M. Castellari,et al.  Level of single bioactive phenolics in red wine as a function of the oxygen supplied during storage , 2000 .

[43]  M. Pérez-Coello,et al.  Fermentation of white wines in the presence of wood chips of American and French oak. , 2000, Journal of agricultural and food chemistry.

[44]  V. Cheynier,et al.  A new class of wine pigments generated by reaction between pyruvic acid and grape anthocyanins. , 1998, Phytochemistry.

[45]  J. Rivas-Gonzalo,et al.  New Anthocyanin Pigments Formed after Condensation with Flavanols , 1997 .

[46]  V. L. Singleton Maturation of Wines and Spirits: Comparisons, Facts, and Hypotheses , 1995, American Journal of Enology and Viticulture.