terclim by ICS banner
IVES 9 IVES Conference Series 9 UNRAVELLING THE ROLE OF LACTIC ACID BACTERIA ON SPARKLING WINE ELABORATION THROUGH METABOLOMICS APPROACH

UNRAVELLING THE ROLE OF LACTIC ACID BACTERIA ON SPARKLING WINE ELABORATION THROUGH METABOLOMICS APPROACH

Abstract

Xinomavro is a red grape variety from Northern Greece (Protected Designation of Origin), known for the nice acidities, perfectly appropriate for sparkling wine production (Rosé and Blanc de Noir). The elaboration of sparkling wine requires technical as well as scientific skills. Although the impact of the yeast strains and their metabolites on the final product quality is well documented, the action of bacteria still remains unknown.

The present work focuses (i) on the population diversity of lactic acid bacteria isolated from sparkling wines and (ii) on the technological effect of the species during sparkling wine elaboration. Bacterial strains were typed by multiple loci VNTR analysis (MLVA) based on five tandem repeats loci and 3 different strains were chosen as starters for the sparkling wine production.

Xinomavro base wine was treated according to the winery production protocol and second fermentation was realised in the bottle under 6 different inoculation schemes.1) addition of S. cerevisiae (Lalvin DV10) 2) addition of S. cerevisiae (Lalvin DV10) and Lysozyme (40g/hL) 3) addition of S. cerevisiae (Lalvin DV10) and O. oeni Greek strain (UNIWA collection) 4) addition of S. cerevisiae (Lalvin DV10) and O. oeni French strain (CRBO collection) 5) addition of S. cerevisiae (Lalvin DV10) and O. oeni Commercial strain 6) addition of Schizo saccharomyces pombe strain (NRRL collection). Twelve months after the second fermentation in the bottle, oenological parameters were determined according to the OIV protocols, the volatile compounds produced were measured by GC/MS, and the metabolomic fingerprint analysis were acquired by an UPLC-HDMS-QTof-MS instrument. Finally, all produced wines were evaluated by quantitative descriptive sensorial analysis.

Malolactic fermentations were realized in all cases except the condition n°2 where lysozyme was added. Forty compounds were quantified and separated according to their chemical classes (monoterpenes, norisoprenoids, aldehydes, alcohols, esters, acids, and ketones) while statistical analysis showed the presence of three groups of sparkling wines according to the inoculation scheme. The untargeted metabolomic approach clearly discriminated the action of bacteria and revealed intra species variability at strain level. This is the first time that highlights the role of lactic acid bacteria and precisely of the species of O. oeni to sparkling wine elaboration.

DOI:

Publication date: February 9, 2024

Issue: OENO Macrowine 2023

Type: Poster

Authors

Maria DIMOPOULOU1,2, Margot PAULIN1, Olivier CLAISSE1, Cécile MIOT-SERTIER1, Fotini DROSOU2, Panagiotis ARAPITSAS2,3, Marguerite DOLS-LAFARGUE1

1. Bordeaux, Bordeaux INP, INRAE, UMR OENO, UMR 1366, ISVV, F-33140 Villenave d’Ornon, France
2. Department of Wine, Vine, and Beverage Sciences, School of Food Science, University of West Attica, Athens, Greece
3. Department of Food Quality and Nutrition, Edmund Mach Foundation, Research and Innovation Centre, Via Edmund Mach 1, 38010 San Michele all’Adige, TN, Italy

Contact the author*

Keywords

sparkling wine, malolactic fermentation, Xinomavro, bacteria

Tags

IVES Conference Series | oeno macrowine 2023 | oeno-macrowine

Citation

Related articles…

DETERMINATION OF MINERAL COMPOSITION IN CV. TERAN (VITIS VINIFERA L.) RED WINE AFFECTED BY PRE-FERMENTATIVE MASH COOLING, HEATING, SAIGNÉE TECHNIQUE AND PROLONGED POST-FERMENTATIVE MACERATIONS

This study aimed to determine mineral composition in red wine obtained from cv. Teran (Vitis vinifera L.), autochtonous Croatian grape variety. Six different vinification treatments, including the control treatment (7-day standard maceration), were performed to study the effects of: 48-hour pre-fermentative mash cooling (8 °C) followed by prolonged post-fermentative maceration of 13 days (C15), 28 days (C30), and saignée technique (juice runoff) proceeded with prolonged post-fermentative maceration of 13 days (CS15); and effect of 48-hour heating (50 °C) followed by prolonged post-fermentative maceration of 13 days (H15) and 28 days (H30) on macro- and microelements in wine.

A NEW SPECIFIC LINEAGE OF OENOCOCCUS OENI IN COGNAC APPELLATION WINES

Oenococcus oeni is the main lactic acid bacteria (LAB) species which conducts the malolactic fermentation (MLF) in wine. During MLF, O. oeni converts malic acid into lactic acid, which modulates wine aroma composition leading to better balanced organoleptic properties. O. oeni is a highly specialized species only detected in environments containing alcohol such as wine, cider or kombucha. Genome analysis of more than 240 strains showed that they form at least 4 main phylogenetic lineages and several sublineages, which are associated with different beverages or types of wines.

EFFECTS OF BIODYNAMIC VINEYARD MANAGEMENT ON GRAPE RIPENING MECHANISMS

Biodynamic agriculture, founded in 1924 by Rudolph Steiner, is a form of organic agriculture. Through a holistic approach, biodynamic agriculture seeks to preserve the diversity of agriculture and the existing interactions between the mineral world and the different components of the organic world. Biodynamic grape production involves the use of composts, herbal teas and mineral preparations such as 500, 501 and CBMT.
Several scientific studies have provided evidence on the effects of biodynamic farming on the soil, the plant and the wine. Numerous empirical opinions of wine growers support the existence of differences brought by such a management.

VALORIZATION OF GRAPE WINE POMACE USING PULSED ELECTRIC FIELDS (PEF) AND SUPERCRITICAL CO₂ (SC CO₂) EXTRACTION

Wine grape pomace quantitatively and qualitatively represents the most important fraction of wine waste. Namely, this by-product makes ~ 20% of the total mass of vinified grapes, and it is characterized with high concentrations of polyphenolic antioxidants, as well as grape seed oil. Hence, valorization of wine pomace, as an alternative to traditionally employed disposal, has drown considerable interest in recent years. Earlier studies were mostly focused on the extraction of phenolics, while mechanisms enhancing the extraction of lipid fraction from grape pomace, as well as their impact on the grape seed oil quality are far less investigated.

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].