Smoke taint

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Smoke taint is a broad term for a set of smoke imparted compounds found in affected wines, constituting a wine fault. Increasing incidences of smoke tainted wines are an important issue, given the recent occurrences of wildfires or bushfires in wine grape producing regions during the growing seasons. Examples of wildfires resulting in smoke tainted wines include the fires in South Africa in late 2017, [1] October 2017 Northern California wildfires, the 2019–20 Australian bushfire season, and the 2020 Glass Fire in Northern California.

Contents

Whenever ambient smoke comes into contact with developing grapes on vines for a period of time, there is a risk that the grapes will carry smoke taint and impart this in wine made from them. The risk is higher with red wines, because their fermentation process includes the grape skins. Around 20-25 percent of people are estimated to not be able to taste the smokiness, possibly because of a lack of enzymes in their saliva. [2]

Causes

Smoke taint occurs when developing grapes are exposed to the smoke from wildfires. There are a number of factors that will determine the level of impact the smoke will have on the berries, including the state of berry development during the episode, the grape variety, the type and concentration of smoke and the duration of exposure. [3]

Wildfires in forested areas tend to burn a lot of wood, releasing volatile phenols into the atmosphere. When these are absorbed by developing grapes in nearby vineyards, they can bind to grape sugars within the grapes. These bound phenols, known as glycosides, are likely to be odorless and tasteless until the bond with the sugar is broken during winemaking processes or aging. When the volatile phenols become unbound, the characteristic "smoky" flavor is likely to become detectable. [4] This bond can also become undone upon tasting, when an affected wine comes in contact with enzyme-containing saliva. [5] Thus, smoke taint can exist masked in wine for a period of time before it becomes apparent.

Sensory compounds and impacts

The major volatile compounds responsible for smoke taint include guaiacol and methylguaiacol. Others include ortho-, meta- and para-cresol as well as syringol and methylsyringol. [6] There are a number of enological laboratories around the world that can analyze for the presence of these compounds and help potentially affected wineries interpret the results.

Similar to cork taint, a wine can suffer from a minor, barely detectable case of smoke taint or it can be so obvious as to render the wine undrinkable. Descriptors for the smell and taste of a smoke tainted wine include smoky, wood smoke, chargrill, smoked meats, bacon and ashtray. The taste tends to be persistent, lingering long after the wine has been spat out or swallowed. [7] Some smoke-taint compounds can be very similar to oak-aging compounds, especially if a wine has been aged in oak with a high level of toast. [8] There is some anecdotal evidence that smoke taint can also impact the texture of wine, resulting in what some describe as a "hard" finish. [9]

Treatments

Analyzing grape samples for smoke taint Wine smoke research.jpg
Analyzing grape samples for smoke taint
External video
Nuvola apps kaboodle.svg “Smoke Taint with Anita Oberholster, Prepare Your Vineyard for Future Threats”, February 1, 2022.

Berries, grape juice and wine can be tested for the presence of volatile phenols indicating smoke taint, the primary markers being guaiacol and 4-methylguaiacol. [10] If found, there are measures that can be taken to minimize, remove/reduce or counterbalance the impact of smoke taint at various stages of the winemaking process. Common treatments include minimizing skin contact and maceration, adding enological tannins and/or oak chips to contribute to structure and counterbalance the impact of smoke taint, and the use of fining and/or filtration to remove/reduce some of the smoke compounds. [2] [11]

Related Research Articles

<span class="mw-page-title-main">Cork taint</span> Wine fault often attributed to the presence of trichloroanisole (TCA) from the cork

Cork taint is a broad term referring to an off-odor and off-flavor wine fault arising from the presence of 2,4,6-trichloroanisole (TCA), a chemical compound that represents one of the strongest off-flavors, and one "generated naturally in foods/beverages", in particular wines, that considerably reduce the quality of these products.

<span class="mw-page-title-main">Winemaking</span> Production of wine

Winemaking or vinification is the production of wine, starting with the selection of the fruit, its fermentation into alcohol, and the bottling of the finished liquid. The history of wine-making stretches over millennia. The science of wine and winemaking is known as oenology. A winemaker may also be called a vintner. The growing of grapes is viticulture and there are many varieties of grapes.

<span class="mw-page-title-main">Oak (wine)</span> Barrel used in wine making

Oak is used in winemaking to vary the color, flavor, tannin profile and texture of wine. It can be introduced in the form of a barrel during the fermentation or aging periods, or as free-floating chips or staves added to wine fermented in a vessel like stainless steel. Oak barrels can impart other qualities to wine through evaporation and low level exposure to oxygen.

<i>Terroir</i> Factors affecting crops

Terroir is a French term used to describe the environmental factors that affect a crop's phenotype, including unique environment contexts, farming practices and a crop's specific growth habitat. Collectively, these contextual characteristics are said to have a character; terroir also refers to this character.

<span class="mw-page-title-main">Red wine</span> Wine made from dark-colored grape varieties

Red wine is a type of wine made from dark-colored grape varieties. The color of the wine can range from intense violet, typical of young wines, through to brick red for mature wines and brown for older red wines. The juice from most purple grapes is greenish-white, the red color coming from anthocyan pigments present in the skin of the grape. Much of the red wine production process involves extraction of color and flavor components from the grape skin.

A wine fault is a sensory-associated (organoleptic) characteristic of a wine that is unpleasant, and may include elements of taste, smell, or appearance, elements that may arise from a "chemical or a microbial origin", where particular sensory experiences might arise from more than one wine fault. Wine faults may result from poor winemaking practices or storage conditions that lead to wine spoilage.

<span class="mw-page-title-main">Teinturier grape</span> Variety of grape

Teinturier grapes are grapes whose flesh and juice is red in colour due to anthocyanin pigments accumulating within the pulp of the grape berry itself. In most cases, anthocyanin pigments are confined to the outer skin tissue only, and the squeezed grape juice of most dark-skinned grape varieties is clear. The red color of red wine comes from anthocyanins extracted from the macerated (crushed) skins, over a period of days during the fermentation process. The name teinturier comes from French, meaning to dye or to stain.

<span class="mw-page-title-main">Outline of wine</span> Overview of and topical guide to wine

The following outline is provided as an overview of and topical guide to wine:

<span class="mw-page-title-main">Syringol</span> Chemical compound

Syringol is the organic compound with the formula HO(CH3O)2C6H3. The molecule is a phenol, with methoxy groups in the flanking (2 and 6) positions. It is the symmetrically dimethylated derivative of pyrogallol. It is a colorless solid, although typical samples are brown owing to air-oxidized impurities. Together with guaiacol, syringol and its derivatives are produced by the pyrolysis of lignin. Specifically, syringol is derived from the thermal decomposition of the sinapyl alcohol component. As such, syringol is an important component of wood smoke.

<span class="mw-page-title-main">Fermentation in winemaking</span> Wine making process

The process of fermentation in winemaking turns grape juice into an alcoholic beverage. During fermentation, yeasts transform sugars present in the juice into ethanol and carbon dioxide. In winemaking, the temperature and speed of fermentation are important considerations as well as the levels of oxygen present in the must at the start of the fermentation. The risk of stuck fermentation and the development of several wine faults can also occur during this stage, which can last anywhere from 5 to 14 days for primary fermentation and potentially another 5 to 10 days for a secondary fermentation. Fermentation may be done in stainless steel tanks, which is common with many white wines like Riesling, in an open wooden vat, inside a wine barrel and inside the wine bottle itself as in the production of many sparkling wines.

<span class="mw-page-title-main">Sugars in wine</span>

Sugars in wine are at the heart of what makes winemaking possible. During the process of fermentation, sugars from wine grapes are broken down and converted by yeast into alcohol (ethanol) and carbon dioxide. Grapes accumulate sugars as they grow on the grapevine through the translocation of sucrose molecules that are produced by photosynthesis from the leaves. During ripening the sucrose molecules are hydrolyzed (separated) by the enzyme invertase into glucose and fructose. By the time of harvest, between 15 and 25% of the grape will be composed of simple sugars. Both glucose and fructose are six-carbon sugars but three-, four-, five- and seven-carbon sugars are also present in the grape. Not all sugars are fermentable, with sugars like the five-carbon arabinose, rhamnose and xylose still being present in the wine after fermentation. Very high sugar content will effectively kill the yeast once a certain (high) alcohol content is reached. For these reasons, no wine is ever fermented completely "dry". Sugar's role in dictating the final alcohol content of the wine sometimes encourages winemakers to add sugar during winemaking in a process known as chaptalization solely in order to boost the alcohol content – chaptalization does not increase the sweetness of a wine.

<span class="mw-page-title-main">Acids in wine</span>

The acids in wine are an important component in both winemaking and the finished product of wine. They are present in both grapes and wine, having direct influences on the color, balance and taste of the wine as well as the growth and vitality of yeast during fermentation and protecting the wine from bacteria. The measure of the amount of acidity in wine is known as the “titratable acidity” or “total acidity”, which refers to the test that yields the total of all acids present, while strength of acidity is measured according to pH, with most wines having a pH between 2.9 and 3.9. Generally, the lower the pH, the higher the acidity in the wine. There is no direct connection between total acidity and pH. In wine tasting, the term “acidity” refers to the fresh, tart and sour attributes of the wine which are evaluated in relation to how well the acidity balances out the sweetness and bitter components of the wine such as tannins. Three primary acids are found in wine grapes: tartaric, malic, and citric acids. During the course of winemaking and in the finished wines, acetic, butyric, lactic, and succinic acids can play significant roles. Most of the acids involved with wine are fixed acids with the notable exception of acetic acid, mostly found in vinegar, which is volatile and can contribute to the wine fault known as volatile acidity. Sometimes, additional acids, such as ascorbic, sorbic and sulfurous acids, are used in winemaking.

<span class="mw-page-title-main">Phenolic content in wine</span> Wine chemistry

The phenolic content in wine refers to the phenolic compounds—natural phenol and polyphenols—in wine, which include a large group of several hundred chemical compounds that affect the taste, color and mouthfeel of wine. These compounds include phenolic acids, stilbenoids, flavonols, dihydroflavonols, anthocyanins, flavanol monomers (catechins) and flavanol polymers (proanthocyanidins). This large group of natural phenols can be broadly separated into two categories, flavonoids and non-flavonoids. Flavonoids include the anthocyanins and tannins which contribute to the color and mouthfeel of the wine. The non-flavonoids include the stilbenoids such as resveratrol and phenolic acids such as benzoic, caffeic and cinnamic acids.

<span class="mw-page-title-main">Aging of wine</span> Overview of the aging of wine

The aging of wine is potentially able to improve the quality of wine. This distinguishes wine from most other consumable goods. While wine is perishable and capable of deteriorating, complex chemical reactions involving a wine's sugars, acids and phenolic compounds can alter the aroma, color, mouthfeel and taste of the wine in a way that may be more pleasing to the taster. The ability of a wine to age is influenced by many factors including grape variety, vintage, viticultural practices, wine region and winemaking style. The condition that the wine is kept in after bottling can also influence how well a wine ages and may require significant time and financial investment. The quality of an aged wine varies significantly bottle-by-bottle, depending on the conditions under which it was stored, and the condition of the bottle and cork, and thus it is said that rather than good old vintages, there are good old bottles. There is a significant mystique around the aging of wine, as its chemistry was not understood for a long time, and old wines are often sold for extraordinary prices. However, the vast majority of wine is not aged, and even wine that is aged is rarely aged for long; it is estimated that 90% of wine is meant to be consumed within a year of production, and 99% of wine within 5 years.

<span class="mw-page-title-main">Aroma of wine</span> Olfactory sensation of wine

The aromas of wine are more diverse than its flavours. The human tongue is limited to the primary tastes perceived by taste receptors on the tongue – sourness, bitterness, saltiness, sweetness and savouriness. The wide array of fruit, earthy, leathery, floral, herbal, mineral, and woodsy flavour present in wine are derived from aroma notes sensed by the olfactory bulb. In wine tasting, wine is sometimes smelled before taking a sip in order to identify some components of the wine that may be present. Different terms are used to describe what is being smelled. The most basic term is aroma which generally refers to a "pleasant" smell as opposed to odour which refers to an unpleasant smell or possible wine fault. The term aroma may be further distinguished from bouquet which generally refers to the smells that arise from the chemical reactions of fermentation and aging of the wine.

This glossary of winemaking terms lists some of terms and definitions involved in making wine, fruit wine, and mead.

<span class="mw-page-title-main">Pressing (wine)</span> Process of extracting juice from grapes in winemaking

In winemaking, pressing is the process where juice is extracted from the grapes with the aid of a wine-press, by hand, or even by the weight of the grape berries and clusters. Historically, intact grape clusters were trodden by feet but in most wineries today the grapes are sent through a crusher/destemmer, which removes the individual grape berries from the stems and breaks the skins, releasing some juice, prior to being pressed. There are exceptions, such as the case of sparkling wine production in regions such as Champagne where grapes are traditionally whole-cluster pressed with stems included to produce a lighter must that is low in phenolics.

<span class="mw-page-title-main">Ripeness in viticulture</span> How the term "ripe" is used in viticulture and winemaking

In viticulture, ripeness is the completion of the ripening process of wine grapes on the vine which signals the beginning of harvest. What exactly constitutes ripeness will vary depending on what style of wine is being produced and what the winemaker and viticulturist personally believe constitutes ripeness. Once the grapes are harvested, the physical and chemical components of the grape which will influence a wine's quality are essentially set so determining the optimal moment of ripeness for harvest may be considered the most crucial decision in winemaking.

<span class="mw-page-title-main">Wine chemistry</span> Chemistry of wine

Wine is a complex mixture of chemical compounds in a hydro-alcoholic solution with a pH around 4. The chemistry of wine and its resultant quality depend on achieving a balance between three aspects of the berries used to make the wine: their sugar content, acidity and the presence of secondary compounds. Vines store sugar in grapes through photosynthesis, and acids break down as grapes ripen. Secondary compounds are also stored in the course of the season. Anthocyanins give grapes a red color and protection against ultraviolet light. Tannins add bitterness and astringency which acts to defend vines against pests and grazing animals.

<span class="mw-page-title-main">Yeast in winemaking</span> Yeasts used for alcoholic fermentation of wine

The role of yeast in winemaking is the most important element that distinguishes wine from fruit juice. In the absence of oxygen, yeast converts the sugars of the fruit into alcohol and carbon dioxide through the process of fermentation. The more sugars in the grapes, the higher the potential alcohol level of the wine if the yeast are allowed to carry out fermentation to dryness. Sometimes winemakers will stop fermentation early in order to leave some residual sugars and sweetness in the wine such as with dessert wines. This can be achieved by dropping fermentation temperatures to the point where the yeast are inactive, sterile filtering the wine to remove the yeast or fortification with brandy or neutral spirits to kill off the yeast cells. If fermentation is unintentionally stopped, such as when the yeasts become exhausted of available nutrients and the wine has not yet reached dryness, this is considered a stuck fermentation.

References

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  2. 1 2 Chrobak, Ula; Zimmer, Katarina (22 June 2022). "Climate change is altering the chemistry of wine". Knowable Magazine. doi:10.1146/knowable-062222-1. S2CID   249973006 . Retrieved 11 July 2022.
  3. "Smoke Taint". The Australian Wine Research Institute. Retrieved 6 June 2021.
  4. Caffrey, Andrew (7 June 2019). "Changes in Smoke-Taint Volatile-Phenol Glycosides in Wildfire Smoke-Exposed Cabernet Sauvignon Grapes throughout Winemaking". American Journal of Enology and Viticulture. 70 (4): 373–381. doi:10.5344/ajev.2019.19001. S2CID   199652815 . Retrieved 6 June 2021.
  5. Mayr, Christine (2014). "Determination of the Importance of In-Mouth Release of Volatile Phenol Glycoconjugates to the Flavor of Smoke-Tainted Wines". Journal of Agricultural and Food Chemistry. 62 (11): 2327–2336. doi:10.1021/jf405327s. PMID   24617920 . Retrieved 6 June 2021.
  6. "Smoke Taint". Australian Wine Research Institute. Retrieved 6 June 2021.
  7. "Smoke Impact in Grapes and Wine". ETS Laboratories. Retrieved 6 June 2021.
  8. Williams, Lexi (3 November 2017). "Understanding Smoke Taint". Wine Spectator. Retrieved 6 June 2021.
  9. Ness, Laura (1 March 2021). "Musing on Smoke Taint from Harvest 2020". Wine Industry Network Advisor. Retrieved 6 June 2021.
  10. "Smoke Impact in Grapes and Wine". ETS Laboratories. Retrieved 6 June 2021.
  11. "What to Do with Grapes Exposed to Smoke?" (PDF). Scott Labs. 12 September 2020. Retrieved 6 June 2021.
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