terclim by ICS banner
IVES 9 IVES Conference Series 9 INCREASING PINOT NOIR COLOUR DENSITY THROUGH SEQUENTIAL INOCULATION OF FLOCCULENT COMMERCIAL WINE YEAST SPECIES

INCREASING PINOT NOIR COLOUR DENSITY THROUGH SEQUENTIAL INOCULATION OF FLOCCULENT COMMERCIAL WINE YEAST SPECIES

Abstract

Vitis vinifera L. cv. Pinot noir can be challenging to manage in the winery as its thin skins require careful handling to ensure sufficient extraction of wine colour to promote colour stability during ageing.1 Literature has shown that fermentation with flocculent yeasts can increase red wine colour density.2 As consumers prefer greater colour density in red wines,3 the development of tools to increase colour density would be useful for the wine industry. This research explored the impact of interspecies sequential inoculation and co-flocculation of commercial yeast on Pinot noir wine colour. Six commercial non-Saccharomyces yeast species and two commercial Saccharomyces cerevisiae strains were assayed based on their sedimentation rates in synthetic grape must, both individually and in combination, to determine flocculation ability. The most flocculent S. cerevisiae and non-Saccharomyces spp. yeast pairings, RC212 + BIODIVA and VL3 + BIODIVA, were used in a 20 L-scale Pinot noir winemaking trial. Ul- traviolet-visible spectrophotometric measurements of wine colour parameters, and sensory evaluation of wine appearance, found that mixed species fermentations produced wines with greater colour density. Total and monomeric anthocyanin concentrations were lower in sequentially-inoculated wines, despite being the main source of young red wine colour. Pigmentation assays indicated a higher adsorption of anthocyanins by BIODIVA than S. cerevisiae, suggesting that greater amounts of cell wall mannoproteins in flocculent yeast may scavenge anthocyanins during fermentation, allowing for their subsequent release from the lees and potential for enhanced formation of copigments. Findings from this research have wide application in the industry to increase red wine colour intensity, particular in thin- skinned red grape varieties.

 

1. Carew, A. L.; Smith, P.; Close, D. C.; Curtin, C.; Dambergs, R. G. Yeast Effects on Pinot Noir Wine Phenolics, Color, and Tannin Composition. J. Agric. Food Chem. 2013, 61 (41), 9892–9898. https://doi.org/10.1021/jf4018806.
2. Varela, C.; Bartel, C.; Nandorfy, D. E.; Borneman, A.; Schmidt, S.; Curtin, C. Identification of Flocculant Wine Yeast Strains with Improved Filtration-Related Phenotypes through Application of High-Throughput Sedimentation Rate Assays. Sci. Rep. 2020, 10 (1). https://doi.org/10.1038/s41598-020-59579-y.
3. Parpinello, G. P.; Versari, A.; Chinnici, F.; Galassi, S. Relationship among Sensory Descriptors, Consumer Preference and Color Parameters of Italian Novello Red Wines. Food Res. Int. 2009, 42 (10), 1389–1395. https://doi.org/10.1016/j.foodres.2009.07.005.

DOI:

Publication date: February 9, 2024

Issue: OENO Macrowine 2023

Type: Poster

Authors

Katasha S. MCCULLOUGH1,2, Yi YANG2, Melodie A. LINDSAY2 and Neill CULLEY2

1. School of Biological Sciences, The University of Auckland
2. School of Chemical Sciences, The University of Auckland

Contact the author*

Keywords

Anthocyanins, Colour density, Pinot noir, Sequential inoculation

Tags

IVES Conference Series | oeno macrowine 2023 | oeno-macrowine

Citation

Related articles…

OENOLOGICAL STRATEGIES FOR THE REMOVAL OF PINKING IN WHITE WINE

The pinking of in white wine is the turning of color from yellow to salmon hue. White wines obtained from certain grape varieties (e.g. Chardonnay, Sauvignon blanc, Riesling, Trebbiano di Lugana) showed to be susceptible to pinking [1] that has been evaluated by an assay providing the addition of hydrogen peroxide. Even if its appearance does not seem to affect the sensory properties [2], strategies are necessary for its removal. Nowadays, the treatment with polyvinylpolipirroline (PVPP) was reported to significantly decrease the pink color [3].

PROFILING OF LIPIDS IN WINES FROM MONOCULTURE FERMENTATION WITH INDIGENOUS METSCHNIKOWIA YEAST SPECIES

Lipids are a diverse group of organic compounds essential for living systems. They are vital compounds for yeast which makes them an important modulator of yeast metabolism in alcoholic fermentation. This study presents a comprehensive lipidome analysis of wine samples from the Vitis vinifera L., Maraština. The fermentation trails were set up in monoculture with different indigenous yeast strains selected from a collection of native yeasts established at the Institute for Adriatic Crops and Karst Reclamation in 2021, previously isolated from Croatian Maraština grapes: Metschnikowia pulcherrima, Metshnikowia sinensis/shanxiensis , and Metschnikowia chyrsoperlae.

ALCOHOLIC FERMENTATION AND COLOR OF ROSÉ WINES: INVESTIGATIONS ON THE MECHANISMS RESPONSIBLE FOR SUCH DIVERSITY

Color is one of the key elements for the marketing of rosé wines due to their packaging in transparent bottles. Their broad color range is due to the presence of pigments belonging to phenolic compounds extracted from grapes or formed during the wine-making process. However, the mechanisms responsible for such diversity are poorly understood. The few investigations performed on rosé wines showed that their phenolic composition is highly variable, close to that of red wines for the darkest rosés but very different for light ones [1]. Moreover, large variations in the extent of color loss taking place during fermentation have been reported but the mechanisms involved and causes of such variability are unknown.

THE EFFECT OF DIFFERENT TERROIRS ON AROMA COMPOUNDS OF ‘KALECIK KARASI’ WINES

Kalecik Karası is a domestic grape variety of Turkey, originating from Kalecik district, 80 km from Ankara. Although there is no definite evidence, it is known that it was used in wine production by many civilizations that lived in the Anatolian region, especially the Hittites. Compared to other black wine grapes, it stands out with its low tannin content, rich fruity aroma and complex structure. In good vintages, red fruits such as strawberries, cherries and raspberries stand out in the aroma profile. Although its structure is elegant, it has the potential to age and develop similar to the ‘Pinot Noir’ wine of the Burgundy region. This offers a complex aroma structure including red flowers, earth and ripe fruits.

USING CHECK-ALL-THAT-APPLY (CATA) TO CATEGORIZE WINES: A DECISION-MAKING TOOL FOR WINE SELECTION

Bordeaux is the largest appellation vineyard in France. This contrasting vineyard with varied terroirs offers all styles of wine, resulting from the blending of several grape varieties. If these different profiles make the renown of Bordeaux wines, it can appear as a constraint when the aim is to study Bordeaux wines in their diversity. The selection of a representative sample can be performed by a sensory analysis carried out by trained panelists or by wine professionals, which can take several forms: consensus among experts, conventional descriptive analysis, typicality or quality evaluation. However, because of time, economic, and logistical constraints, these methods have limited applications. As an alternative to classical descriptive analysis, more intuitive methods that do not require training have been proposed recently to describe wines using an expert panel such as Napping, Free Choice or Flash Profiling, CATA or RATA.