Φ, benzene ring.
FIGURE 2.4 Biosynthesis of higher alcohols, according to Ehrlich.
Higher alcohols are found in brandies after distilling and contribute to their specific characters. Distillation techniques have a major impact on their overall concentration.
2.2.3 Miscellaneous Alcohols
These molecules originate from grapes and are found in wines. One group consists of C6 alcohols, hexanols and hexenols from plant tissues, giving the herbaceous/grassy aromas so characteristic of wines made from unripe grapes (Volume 1, Sections 11.6.2 and 13.3.4).
Another of these compounds is 1‐octen‐3‐ol, with an odor reminiscent of mushrooms. Its presence in wine is due to the action of Botrytis cinerea on grapes.
Finally, terpene alcohols, the main components in the distinctive Muscat aroma, are described in full elsewhere (Section 7.2.1).
2.3 Polyols
Polyols are characterized by the presence of several hydroxyl radicals in the same linear or cyclic molecule. In general, an accumulation of hydroxyl radicals in a compound raises the boiling point considerably (Table 2.2) due to the large number of hydrogen bonds, as well as increasing its viscosity and anti‐freeze properties. Parallel increases are observed in solubility and sweetness. Sugars are good examples of polyols.
TABLE 2.2 Impact of the Number of Hydroxyl Groups on the Boiling Point of Alcohols
| Alcohols and polyols | Boiling point(°C) | |
|---|---|---|
| Ethanol | CH3−CH2OH | 78 |
| Ethyleneglycol | CH2OH−CH2OH | 198 |
| Glycerol | CH2OH−CHOH−CH2OH | 290 |
2.3.1 C3 Polyol: Glycerol
Besides water and ethanol, glycerol (Table 2.3) is probably the chemical compound with the highest concentration in wine. It is the most important by‐product of alcoholic fermentation. The minimum glycerol concentration in wine is 5 g/l, but it may reach values as high as 15–20 g/l, depending on fermentation conditions (especially must sulfiting levels). Musts from grapes affected by noble rot already contain a few grams of glycerol, which is added to the quantity produced by fermentation.
Glycerol is formed by yeast at the beginning of the fermentation process. It is generally considered to be produced “with the first 50 grams of sugars fermented.” This corresponds to the start of the glyceropyruvic fermentation. The only way for yeast to ensure the reoxidation of the NADH coenzyme + H+ is by reducing dihydroxyacetone to glycerol. At this stage, the acetaldehyde level is too low for this reoxidation to occur while producing ethanol. When must is treated with high doses of SO2, this molecule binds with acetaldehyde, thus increasing the glyceropyruvic fermentation rate and the amount of glycerol formed.
TABLE 2.3 Concentrations of Polyols Found in Wines (Ribéreau‐Gayon et al., 1982)
| Formula | Concentrations(mg/l) | |
|---|---|---|
| Glycerol | CH2OH−CHOH−CH2OH | 5,000–20,000 |
| 2,3‐Butanediol | CH3−CHOH−CHOH−CH3 | 330–1,350 |
| Erythritol | CH2OH−(CHOH)2−CH2OH | 30–200 |
| Arabitol | CH2OH−(CHOH)3−CH2OH | 25–350 |
| Mannitol | CH2OH−(CHOH)4−CH2OH | 90–750 |
| Sorbitol | CH2OH−(CHOH)4−CH2OH | 30–300 |
| meso‐Inositol | (CHOH)6 | 220–730 |
Glycerol in wine may act as a carbohydrate nutrient for the growth of various microorganisms, e.g. the flor yeast in Sherry production (Volume 1, Section 14.5.2).Also, certain detrimental bacteria are capable of breaking down glycerol, with a double dehydration reaction that produces acrolein (Figure 2.5). Acrolein interacts with tannins to reinforce bitterness and is considered a type of microbial spoilage (acrolein spoilage or amertume) (Section 8.3.2).
In view of its high concentration, it was thought that glycerol affected wine flavor, giving an impression of body and softness. In fact, doses much higher than those occurring naturally in wine are required to affect flavor to any significant extent.
2.3.2 C4 Polyols: 2,3‐Butanediol and Erythritol
The C4 molecule 2,3‐butanediol (Table 2.3) is a diol. It is a by‐product of alcoholic fermentation and is probably also formed by malolactic fermentation. This compound has little odor, and its taste is slightly sweet and bitter at the same time, but it does not have much organoleptic impact in wine. It is stable, and, above all, unaffected by bacteria.