A Pinot Noir wine tasting and evaluation workshop for winemakers was held on November 3, 2022, at the Alba Vineyards, in Warren County. Pinot Noir is one of the most famous wine varieties in the world. In New Jersey (NJ), several vineyards are growing it, making high-quality Pinot Noir wine, and blending it. However, the fruit can lose flavor and acidity during the warm summer, hence recommended for northern NJ. In southern NJ, it is grown for sparkling wine; however, areas with significant maritime influence can also grow still Pinot Noir. The responses to a survey weeks before the event formed the basis of discussion at the workshop.
Participating Wineries: Alba Vineyards, Armstrong Valley Vineyard, PA, Autumn Lake vineyard, Beneduce Vineyards, Crosswick Creek Estate vineyard, Setter Ridge Vineyard, PA, Unionville Wineries; and William Heritage Winery. A few new wineries also participated in the discussion.
Vineyard Challenges: Pinot Noir is an early bud break variety, and, in some years, growers had to manage frost damage. The 2020 spring frost caused severe primary bud damage; however, the secondary buds pushed and gave low yields and light wine color. In wet years, some tight cluster clones of Pinot Noirs are highly likely to get botrytis and or sour rot just before reaching full ripeness, which can result in the presence of Volatile Acids (VA) in wine. Also, the earlier ripening compared to other varieties means it is prone to bird damage, which can cause berry injuries and contribute to the development of rots and faulty wine. A vineyard used trace bloom thinning to loosen the clusters; however, it resulted in bigger berries and was counterproductive. Growers agreed that the successful management of rots must include; 360°-degree exposure for clean fruits; in wet years, scooping out rot from the cluster by removing berries instead of clusters; and application of OxiDate, a bactericidal product that dry ups fruit and reduces the damage.
There are numerous known Clones of Pinot Noir; however, about 10-15 clones are very popular thought out the world for their different traits. Having a clone of a unique profile and knowing where to plant is very important to get the best possible Pinot Noir wine. Clones 667 and 777 are very aromatic; however, they tend to get rot a few days before they ripen. Clones 114 and 115 are slightly tighter than the above two; however, they are highly valued for balance and high aromas. Clone 943 has smaller berries but slightly open clusters, high sugar content, and excellent flavor intensity. Clone 23 has a bigger and looser cluster; it is sweet, has very dark fruit, has a very earthy aroma, and has a very soft tannin structure. Pommard or Clone 5 has a dark color and can be a standalone clone. Clone Wadenswail is one of the most popular clones for its ability to thrive in cool climate ripening and a long season with less disease susceptibility. Most participants had some or most of the clones mentioned above and agreed that using multiple clones in the same wine can build complexity. Pinot Noir gives an opportunity and flexibility to blend these traits in the vineyard.
Harvest Parameters and Yield: Wineries monitored the sugar and acid levels to decide on harvesting. Most vineyards reported a yield of 2-3 tons per acre, with few even picking up to 4 tons per acre. Alba vineyard has a planting density of 2100 vines per acre to enhance the highly ripened fruit and not necessarily the yield. They are aiming to go even higher density in their future planting. A Pennsylvania-based winery with experience growing Pinot Noir for more than 20 years mentioned that they avoid yields higher than 2.5 tons during the first five years; after that, tannins go up, and the best wines come after eight years. They also observed that the best fruit comes from the top site from which they make reserve Pinot Noir. Few vineyards mentioned that they avoid using herbicide at all or at least during the growing season. Participants agreed on the importance of picking clean fruit to avoid VAs in the vineyard. The vintage can also significantly influence Pinot Noir’s wine quality.
The problem of high pH due to high potassium (K) concentration is known. However, few wineries observed a low K+ from leaf petiole analysis at harvest; however, by the time MLF was done, pH went up. According to Gary Pavlis, the K in the grape skin is difficult to measure and can contribute to high acidity. According to Sutter Ridge Vineyard, the problem of high pH Pinot Noir is also common in France, and a slightly higher pH of up to 4.0 is OK, even though it may give brown color. In the newsletter article “Making (red) wine from fruit high in potassium,” Dennis Gardener points out how to address the problem of high K.
Most wineries performed Cold Soaking for 3-5 days right after the harvest, and few wineries avoided it. According to Dr. James Harbertson, Professor of Enology at Washington State University, anthocyanins are water soluble and super easy to extract, and the main benefit is the extraction of flavors. However, thin-skinned varieties such as Pinot Noir and Grenache are outliners. “Origins of cold soak is in white wines production, and Pinot Noir was the earliest red wine to receive cold-soak treatment, which is closer to the white grape than red grape.” Most wineries destemmed and crushed clusters before the fermentation; however, few wineries performed whole cluster fermentation. Whole cluster fermentation is employed to extract the mellow and spicy flavors from the cluster stems or to promote carbonic maceration, as in the case of Beneduce vineyards, using 10-15% of whole clusters. The stems must be ripe, brown, and woody; green or underripe stems (brown outside but green inside) can bring vegetal and herbal notes. A winery mentioned that their experiment with whole cluster fermentation was not great and switched only to destemming.
Fermentation: Most winemakers like to use a variety of yeast strains such as CVRP, RA17 – widely used in the Burgundy region, Assmanshausen, and their combinations. There is a preference to use native yeast along with traditional yeasts, while one winery only uses native yeast that was isolated for future use. There is a way to identify native yeasts from harvested grapes; however, that requires ‘tons of experiments’ followed by wine analysis services such as ETS, which will help identify and isolate a culture of ‘mother yeast.’ A grower mentioned that they don’t prefer to make wine out of a catalog and only use natural fermentation, where the fruits are allowed to ferment without adding anything. While native fermentation gives a great nose and more complexities, it is essential to bring clean and healthy fruit; otherwise, wild strains and bacteria can quickly take over the process. Most wineries used Malolactic fermentation (MLF), and few avoided it. During MLF, tart malic acid is converted into the less acidic lactic acid by the action of the bacteria. Most used the VP41 strain of bacteria, while others used PN4 and 0-MEGA. One winery used a native strain to perform MLF. Few performed partial MLF, where only 50% of the wine went through MLF.
A winery measured YAN (Yeast Assimilable Nitrogen) at the winery and found a lower number; they managed it by foliar application of nitrogen a week before the harvest along with the sulfur. Another winery used a wine testing service to get the YAN numbers and then adjusted the numbers by adding 5g/hL Fermaid K and a similar amount of Yeast Hulls to fermentation that needed it.
Oak Flavoring: The standard choice was the French Oak; however, most used 10-15% new oak. As Dr. Anita Oberholster, UC Davis enologist, forewarns, “Barrel aging of Pinot Noir certainly adds numerous flavor and aromatic compounds; however, New oak is like garlic or chili in cooking; if you use too much of it, you will kill the flavor.” The duration in Oak was for at least 16 months for most wineries.
References:
Coia L. and Ward D. 2018. Wine Grape Varieties of New Jersey. Rutgers NJAES.
Gardener D. 2016. Making Red Wine from Fruit High in Potassium. Penn State Extension Wine & Grape U. https://psuwineandgrapes.wordpress.com/2016/09/23/making-red-wine-from-fruit-high-in-potassium/
Jackson R. 2014. Wine Science: Principles and Applications. Fourth Ed. Elsevier.
Previous Notes:
2021 Chardonnay Wine Tasting and Evaluations: https://go.rutgers.edu/5q5m8b8v
2020 Cabernet Franc Wine Tasting and Evaluations: https://go.rutgers.edu/nljulicx
2015 Chardonnay Wine Tasting and Evaluations: https://go.rutgers.edu/6zra77ru