Formation and Accumulation of Acetaldehyde and Strecker Aldehydes during Red Wine Oxidation

Mónica Bueno; Almudena Marrufo-Curtido; Vanesa Carrascón; Purificación Fernández-Zurbano; Ana Escudero; Vicente Ferreira

doi:10.3389/fchem.2018.00020

Formation and Accumulation of Acetaldehyde and Strecker Aldehydes during Red Wine Oxidation

Front Chem. 2018 Feb 14:6:20. doi: 10.3389/fchem.2018.00020. eCollection 2018.

Authors

Mónica Bueno¹, Almudena Marrufo-Curtido², Vanesa Carrascón², Purificación Fernández-Zurbano¹, Ana Escudero², Vicente Ferreira²

Affiliations

¹ Instituto de Ciencias de la Vid y del Vino, Universidad de La Rioja-CSIC-Gobierno de La Rioja, Logroño, Spain.
² Laboratory for Flavor Analysis and Enology, Department of Analytical Chemistry, Faculty of Sciences, Instituto Agroalimentario de Aragón, IA2, Universidad de Zaragoza-CITA, Universidad de Zaragoza, Zaragoza, Spain.

Abstract

The main aim of the present work is to study the accumulation of acetaldehyde and Strecker aldehydes (isobutyraldehyde, 2-methylbutanal, isovaleraldehyde, methional, phenylacetaldehyde) during the oxidation of red wines, and to relate the patterns of accumulation to the wine chemical composition. For that, eight different wines, extensively chemically characterized, were subjected at 25°C to three different controlled O₂ exposure conditions: low (10 mg L^-1) and medium or high (the stoichiometrically required amount to oxidize all wine total SO₂ plus 18 or 32 mg L^-1, respectively). Levels of volatile aldehydes and carbonyls were then determined and processed by different statistical techniques. Results showed that young wines (<2 years-old bottled wines) hardly accumulate any acetaldehyde regardless of the O₂ consumed. In contrast, aged wines (>3 years-old bottled wines) accumulated acetaldehyde while their content in SO₂ was not null, and the aged wine containing lowest polyphenols accumulated it throughout the whole process. Models suggest that the ability of a wine to accumulate acetaldehyde is positively related to its content in combined SO₂, in epigallocatechin and to the mean degree of polymerization, and negatively to its content in Aldehyde Reactive Polyphenols (ARPs) which, attending to our models, are anthocyanins and small tannins. The accumulation of Strecker aldehydes is directly proportional to the wine content in the amino acid precursor, being the proportionality factor much higher for aged wines, except for phenylacetaldehyde, for which the opposite pattern was observed. Models suggest that non-aromatic Strecker aldehydes share with acetaldehyde a strong affinity toward ARPs and that the specific pattern of phenylacetaldehyde is likely due to a much reduced reactivity toward ARPs, to the possibility that diacetyl induces Strecker degradation of phenyl alanine and to the potential higher reactivity of this amino acid to some quinones derived from catechin. All this makes that this aldehyde accumulates with intensity, particularly in young wines, shortly after wine SO₂ is depleted.

Keywords: PLS models; amino acids; iron; off-odors; oxidative deterioration; quinones; sulfur dioxide; α-dicarbonyls.