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Simonin Scott

Adjoint scientifique

Main skills

Adjoint scientifique

Phone: +41 22 363 40 75

Changins- Haute école de viticulture et œnologie
Route de Duillier, 1260 Nyon, CH

BSc HES-SO en Oenologie - Changins- Haute école de viticulture et œnologie

2023

Use of Oenological Tannins to Protect the Colour of Rosé Wine in a Bioprotection Strategy with Metschnikowia pulcherrima

Scientific paper

Maëlys Puyo, Simonin Scott, Géraldine Klein, Vanessa David-Vaizant, Natalia Quijada-Morin, Hervé Alexandre, Raphaëlle Tourdot-Maréchal

Foods, 2023 , vol. 12, no (4)

Link to the publication

Summary:

Although bioprotection is now recognised as an alternative to SO2 for limiting microbial spoilage, it does not guarantee protection against oxidation. This limits its application, more specifically for rosé winemaking. Oenological tannins present antioxidant properties, which could represent an interesting alternative to SO2 to protect must and wines against oxidation. A combination of the inoculation of a bioprotectant yeast strain and the addition of oenological tannins was tested to eliminate sulfites during the pre-fermentative step of rosé winemaking. In this experiment carried out in a winery, two oenological tannins were compared: quebracho and gall nut tannins. The antioxidant efficiency of tannins was compared to that of SO2. Colorimetric assays associated with chemical analyses of anthocyanins and phenolic compounds confirmed that the use of bioprotection alone did not protect the wine from oxidation. An addition of oenological tannins on musts stabilized the colour of bioprotected rosé wine in a similar way that SO2 addition did. Quebracho tannins appeared more efficient than gall nut tannins. The colour differences observed cannot be explained either by the concentration or forms of anthocyanins. However, the addition of tannins led to better protection of oxidation-sensitive phenolic compounds comparable to that obtained with the addition of sulfites.

2020

Bio-Protection as an Alternative to Sulphites: Impact on Chemical and Microbial Characteristics of Red Wines

Scientific paper

Simonin Scott, Chloé Roullier-Gall, Jordi Ballester, Philippe Schmitt-Kopplin, Beatriz Quintanilla-Casas, Stefania Vichi, Dominique Peyron, Hervé Alexandre, Raphaëlle Tourdot-Maréchal

Frontiers in Microbiology, 2020 , vol. 11

Link to the publication

Summary:

In wine, one method of limiting the addition of sulphites, a harmful and allergenic agent, is bio-protection. This practice consists of the early addition of microorganisms on grape must before fermentation. Non-Saccharomyces yeasts have been proposed as an interesting alternative to sulphite addition. However, scientific data proving the effectiveness of bio-protection remains sparse. This study provides the first analysis of the chemical and microbiological effects of a Metschnikowia pulcherrima strain inoculated at the beginning of the red winemaking process in three wineries as an alternative to sulphiting. Like sulphiting, bio-protection effectively limited the growth of spoilage microbiota and had no influence on the phenolic compounds protecting musts and wine from oxidation. The bio-protection had no effect on the volatile compounds and the sensory differences were dependent on the experimental sites. However, a non-targeted metabolomic analysis by FTICR-MS highlighted a bio-protection signature.

2018

Inoculation of Torulaspora delbrueckii as a bio-protection agent inwinemaking

Scientific paper

Simonin Scott, Hervé Alexandre, Maria Nikolantonaki, Christian Coelho, Raphaëlle Tourdot-Maréchal

Food Research International, 2018 , vol. 107, no May 2018, pp. 451-461

Link to the publication

Summary:

In oenology, bio-protection consists in adding bacteria, yeasts or a mixture of microorganisms on grape must before fermentation in order to reduce the use of chemical compounds such as sulphites. More particularly, non-Saccharomyces yeasts are used as a total or partial alternative to sulphites. However, scientific data capable of proving the effectiveness of adding these yeasts on grape must is lacking. This study reports the analysis of antimicrobial and antioxidant effects of one non-Saccharomyces yeast, Torulaspora delbrueckii, inoculated at the beginning of the white winemaking process in two Burgundian wineries as an alternative to sulphiting. The implantation of the T. delbrueckii strain was successful in both wineries and had no impact on fermentation kinetics. Adding T. delbrueckii reduced biodiversity during the pre-fermentation stages compared to sulphited controls and it also effectively limited the development of spoilage microorganisms in the same way as the addition of sulphites. T. delbrueckii could protect must and wine from oxidation as demonstrated by the analysis of colour and phenolic compounds. This is the first evidence that early addition of T. delbrueckii during wine-making can be a microbiogical and chemical alternative to sulphites. However, its contribution seems to bematrix dependent.

Achievements

PEOPLE@HES-SO
Directory and Skills inventory

Simonin Scott

Adjoint scientifique

Main skills

Microbiology

Yeast

Œnology

Fermentation

Winemaking

Brewing

Distillation

Adjoint scientifique

PEOPLE@HES-SO Directory and Skills inventory

Simonin Scott

Adjoint scientifique

Main skills

Microbiology

Yeast

Œnology

Fermentation

Winemaking

Brewing

Distillation

Adjoint scientifique

PEOPLE@HES-SO
Directory and Skills inventory