Have you ever had a glass of wine and marveled at its smoothness or subtle buttery texture? That exciting experience can come from a unique winemaking process called malolactic fermentation (MLF). Although it may sound complicated, it is an essential tool for winemakers and is adaptive to enhance the wine's overall character, balance, and elegance. In this blog, we'll explore malolactic fermentation, why winemakers use it, and how it affects a wine's final flavor. Let's dig in!
Malolactic fermentation, often shortened as MLF, is the second fermentation process in winemaking. While primary fermentation, in contrast, changes sugars into alcohol with the action of yeast, malolactic fermentation changes the harsh malic acid present in wine into softer lactic acid. This process is typically carried out by lactic acid bacteria, specifically Oenococcus oeni, though other strains can also be involved.
In other words, malic acid gives the wine a sharp and fresh green apple tartness, while lactic acid makes the taste creamier. If malolactic fermentation occurs, the wine loses its sharp acidity and becomes much smoother and fuller in mouthfeel. This step is vital for the final product of specific red and white wines to be correctly balanced and drinkable.
Malolactic fermentation is not universally applied to all wines, but for those where it is used, it plays a pivotal role in refining both flavor and texture. In short, MLF helps in the "softening" of wines by reducing sharpness and enhancing mouthfeel, often introducing subtle complexity to the taste profile.
Another essential reason oenologists use malolactic fermentation is to soften the acidity of the wine. Grapes—particularly those grown in cool climates—contain high amounts of malic acid, and wine made from those grapes tastes very tart or sharp. MLF mitigates that effect by converting that harsh malic acid to softer lactic acid, making the wine taste smoother. This is important as it balances the acidity of the entire wine. It allows a smoother and more pleasurable drink.
While MLF is essential for some wines, like rich Chardonnays or bold red wines, its role is particularly pertinent when balancing acidity to provide a specific taste profile. For instance, without MLF, a high-end Chardonnay might be too acidic, masking the more delicate flavors beneath.
Besides softening acidity, malolactic fermentation may impart unique flavor and aroma compounds to the wine. The most famous by-products of MLF include the buttery flavor associated with some Chardonnays. Diacetyl, a compound produced during malolactic fermentation, accounts for aged wine's thick, buttery taste characteristic in oak barrel premium Chardonnays.
MLF is also used for red wines, but the impact on the flavor is generally less pronounced. Instead of giving the flavor a buttery note, MLF can add to the fruit characteristics while fending off the bitter notes in tannins, resulting in a softer and more harmonious palate. This is very helpful in full-bodied red wines such as Cabernet Sauvignon, Merlot, and Syrah when tannins must be reduced to a mellow, fragranced, enjoyable wine.
If you have ever heard someone mention that wine tastes "buttery," chances are strong that the phenomenon is due to malolactic fermentation. This particular characteristic is highly prominent in some Chardonnays, where a winemaker will prompt MLF to give diacetyl, which is the compound that gives a wine a rich creaminess and buttery taste. These wines also take on a rich texture when aged in oak, which is what many of its enthusiasts go for.
Not all Chardonnays undergo MLF, however. Some winemakers deliberately avoid malolactic fermentation to keep the wine's acidity crisp, emphasizing citrus and apple notes rather than the creamy, rounded profile. This is a matter of personal preference; again, style is up to the winemaker.
Although it is not so much to create a specific type of flavor in red wines, MLF still needs to play a critical role in the eventual mouthfeel and smoothing texture of red wines. Overall, MLF tends to produce a silky texture in red wines, smoothening bold tannins and usually overpowering fruit flavors. Such treatment with MLF might suit Pinot Noir and Merlot, among others, to help round off those rough edges and make them approachable and enjoyable.
MLF in red wines also integrates flavors; the taste is homogenous and not compartmentalized like in various fruit, tannin, and acidity tastes. In MLF, these factors combine to give the perfect wine to be served and enjoyed.
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In some red wines, malolactic fermentation can occur spontaneously during the aging process in the barrel, but most prefer more control over the process to ensure better quality and consistency and avoid spoilage. This is possible by adding selected strains of Oenococcus oeni bacteria to the wine at the right moment.
It can be controlled very tightly regarding when the process is initiated and stopped, so the exact acidity level is obtained. This is critical for wines with an excellent need for partial malolactic fermentation, meaning that the winemaker needs to preserve some natural acidity to get a fresh yet crisp taste while still enjoying the textural implications of MLF.
Not all wines are suited to malolactic fermentation; in some instances, the winemaker will actively work to avoid it. For example, you want to retain your natural acidity to achieve a clean, vibrant flavor profile in certain white wines like Dry Riesling and Sauvignon Blanc or sparkling wines like Champagne. Here, winemakers may employ sulfites, temperature control, or sterile filtration to prevent malolactic fermentation from occurring in wine, preserving the bright, zesty character.
Malolactic fermentation is the most iconic in oaked Chardonnay, whereby those buttery, creamy notes are trumpeted. Yet, it can be a marvelous match for other white wines, such as Viognier and, in certain instances, Pinot Grigios. In these cases, MLF impacts the roundest of acidity and structure. When choosing to include MLF in white wines, the winemaker makes a stylistic choice. Whereas some may appreciate the freshness of non-MLF wines, others may prefer the fuller mouthfeel that results from malolactic fermentation.
Malolactic fermentation is almost invariably applied to red wines, especially full-bodied varieties like Cabernet Sauvignon, Merlot, and Syrah. It tends to soften the astringent, sharper tannins so that the wine is more accessible even at a younger age. Even Pinot Noir does not escape the addition of MLF factors that enhance the overall drinking experience.
Suggested read: Red Wine vs. White Wine: Differences, Benefits & Pairings
A powerful tool in the winemaker's arsenal, capable of transforming tart sour wines into smooth, well-rounded expressions, whether imparting Chardonnay's signature buttery flavor or softening tannins in a bold Cabernet Sauvignon, MLF plays a vital role in shaping wine lovers' flavor, texture and overall quality Understanding the lactic fermentation behind every bottle leads to a deeper appreciation of the craft, helping to explain why some wines are rich and creamy while others remain crisp and bright.
Essentially, malolactic fermentation is not just a technical process; It is the art of wine selection by the winemakers to strike the perfect balance, showcasing the complexity and depth of flavors that make a wine such a unique drink.
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