Wine Chemistry and Biochemistry

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296 M.S. P ́erez-Coello and M.C. D ́ıaz-Maroto


stabilizing reactions that affect wine colour and clarity, structural changes in the


phenolics and new aroma formation all take place during oak wood aging. None of


these reactions occurs in tanks or bottles, which are inert, do not interact with the


wine, and do not allow the controlled oxidation that takes place in oak barrels.


The release of oak wood aromas is one of the primary reasons why wines are


made to undergo aging in the wood. This makes it necessary to take into account the


different factors regulating the release of volatile components from the oak to the


wine. These factors include the type of oak employed and the geographical origin of


the oak (Mosedale and Ford 1996; Chatonnet and Dubourdieu 1998; P ́erez-Coello


et al. 1999; Fern ́andez de Sim ́on et al. 2003), the drying treatment to which the oak


has been subjected (Sefton et al. 1993; Masson et al. 2000b; Doussot et al. 2002),


the degree of toasting (Chatonnet 1999; Hale et al. 1999; Cadah ́ıa et al. 2003), and


the length of time a wine spends in the barrel, along with barrel age and usage, i.e.,


the number of times a barrel has been used (Singleton 1995; Escalona et al. 2002;


P ́erez-Prieto et al. 2002).


Several chemical reactions that happen in the barrel during aging can also affect


the final volatile composition of wines. Among these reactions is found the oxidation


due to the entry of oxygen across the pores of the wood, which modify both the wine


volatile compounds and those extracted from wood. On the other hand, microorgan-


isms, proceeding from the wine or from the barrel, especially lactic bacteria and


yeasts, can produce important volatile compounds from a sensorial point of view,


like vinylphenol and vinylguaiacol (Jarauta et al. 2005).


Finally, the adsorption of certain wine volatiles by the lees and the barrel itself
(Chatonnet et al. 1992a; Ram ́ırez Ram ́ırez et al. 2001; Jim ́enez Moreno and Anc ́ın


Azpilicueta 2007), together with the possible changes that can occur during the addi-


tional bottle aging period (P ́erez-Prieto et al. 2003), will also cause modifications in


the final aromatic composition of the wine.


The long aging process normally increases the price of the final product, since the


wine has to be left in the barrels before it can be brought to market. For this reason,


the use of oak chips or staves as an alternative for the aging process has been widely


considered in the last few years (Ducournau et al. 1999; Guti ́errez Afonso 2002;


Frangipane et al. 2007). However, since oak barrel aging involves something more


than the simple transfer of compounds from the wood to the wine, this new type of


skill will have to be optimised to obtain a quality product.


8C.2 Volatile Composition of Oak Wood and Sources of Variation


Only oak heartwood is used to manufacture barrels. The basic composition varies


little from one species of oak to another. Oak wood consists mainly of cellulose


(50%) and hemicellulose (20%), which provide the framework and matrix for the


wood. Lignin is the other large polymer that makes up 30% of dry wood. It is a three-


dimensional, reticulated polymer comprising phenylpropane with units of guaiacyl


(2-methoxyphenol) and syringyl (2,6-dimethoxyphenol) that are cross-linking by


oxidation. Lignin is mainly present in the cell walls.

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