terclim by ICS banner
IVES 9 IVES Conference Series 9 INOCULATION OF THE SELECTED METSCHNIKOWIA PULCHERRIMA MP1 AS A BIOPROTECTIVE ALTERNATIVE TO SULFITES TO PREVENT BROWNING OF WHITE GRAPE MUST

INOCULATION OF THE SELECTED METSCHNIKOWIA PULCHERRIMA MP1 AS A BIOPROTECTIVE ALTERNATIVE TO SULFITES TO PREVENT BROWNING OF WHITE GRAPE MUST

Abstract

Enzymatic browning (BE) of must is caused by polyphenol oxidases (PPOs), tyrosinase and laccase. Both PPOs can oxidize diphenols such as hydroxycinnamic acids (HA) to quinones, which can later polymerize to form melanins [1], which are responsible of BE in white wines and of oxidasic haze in red wines. SO₂ is the main tool used to protect must from BE thanks to its capacity to inhibit PPOs [2]. However, the current trend in winemaking is to reduce and even eliminate this unfriendly additive. Among the different possible alternatives for protecting must against BE, the inoculation with a selected Metschnikowia pulcherrima MP1 is without any doubt one of the most promising ones.
For that purpose, white grapes were harvested, pressed and diluted 5 times with a model grape must synthetic buffer at pH = 3.50 and supplemented or not with 20 mg/L of SO₂, 2 UA/mL of laccase activity and 250 mg/L of the selected M. pulcherrima MP1 (Level2 Initia™, Lallemand Inc, Montreal, Canada). Immediately, the samples were saturated with O₂ and its concentration was noninvasively monitored overtime by luminescence (Nomasense TM O₂ Trace Oxygen Analyzer by Nomacorc S.A., Thimister Clermont, Belgium) [3]. Once oxygen consumption attained an asymptotic behavior the samples were used for color analysis [4] and for HPLC analysis of HA [5].
As expected, in the absence of SO₂, the must actively consumed O₂ and HA, and it turned intensely brown whereas in the presence of SO₂, the O₂ consumption rate (OCR) was significant lower, the HA concentra- tion was maintained at significant higher levels and the yellow color intensity remained at low values. In presence of laccase, OCR and browning intensity were even higher than in control conditions and the supplementation with SO₂ reduced both parameters but not as much as in the control must. Inoculation with the selected M. pulcherrima MP1 increased significantly OCR and protected the must from BE since the final yellow color was significantly lower and the HA concentration significantly higher than in control conditions although this protection was not so effective as that of SO₂. It seems the- refore that selected M. pulcherrima MP1 consumes O₂ very effectively making that some of the initially dissolved O₂ is not consumed by PPOs. In the presence of laccase, the supplementation with MP also protected the must from browning but not so efficiently.
This data confirms that the use of the selected M. pulcherrima MP 1 can be an interesting tool for redu- cing the dose of SO₂ without affecting seriously its final color quality.
Acknowledges: This research was funded by CICYT (project RTI 2018-095658-B-C33).

 

1. Oliveira CM, Silva-Ferreira AC, De Freitas V, Silva AM (2011) Food Res Int 44:1115-1126.
2. Ough, C.S., Crowell, E.A. (1987) J. Food Sci., 52, 386-389.
3. Pons-Mercadé P, Anguela S, Giménez P, Heras JM, Sieczkowski N, Rozès N, Canals JM, Zamora F (2021) Oeno One 2:147-158.
4. Ayala F, Echavarri JF, Negueruela AI (1997) Am J Enol Vitic 48:364-369.
5. Lago-Vanzela, E.S., Da-Silva, R., Gomes, E., García-Romero, E., Hermosín-Gutiérrez, I. (2011) J. Agric. Food Chem., 59, 8314−8323. 

DOI:

Publication date: February 9, 2024

Issue: OENO Macrowine 2023

Type: Article

Authors

Marco Bustamante¹, Pol Giménez¹, Arnau Just-Borras¹, Ignasi Solé-Clua¹, Jordi Gombau¹, José M. Heras², Nathalie Sieczkowski², Mariona Gil³, Joan Miquel Canals¹, Fernando Zamora1*

1. Departament de Bioquímica i Biotecnologia, Facultat d’Enologia de Tarragona, Universitat Rovira i Virgili, C/Marcel.li Domingo 1, 43007 Tarragona, Spain
2. Lallemand Bio S.L. C/ Galileu 303. 1ª planta. 08028-Barcelona, Spain
3. Instituto de Ciencias Químicas Aplicadas. Facultad de Ingenieria. Universidad Autónoma de Chile. Sede Santiago, Campus Providencia. Av. Pedro de Valdivia 425, Providencia, Santiago. Chile

Contact the author*

Keywords

Metschnikowia pulcherrima, Browning, SO₂ alternative, Bioprotection

Tags

IVES Conference Series | oeno macrowine 2023 | oeno-macrowine

Citation

Related articles…

HAZE RISK ASSESSMENT OF MUSCAT MUSTS AND WINES : WHICH LABORATORY TEST ALLOWS A RELIABLE ESTIMATION OF THE HEATWAVE REALITY?

Wines made from Muscat d’Alexandria grapes exhibit a high haze risk. For this reason, they are systematically treated with bentonite, on the must and sometimes also on wine. In most oenological labora-tories and in companies (trade, cooperatives, independent winegrowers), the test that is by far the most widely used, on a worldwide scale, remains the heat test at 80°C for 30 minutes to 2 hours (and some-times up to 6 hours). The tannin test (sometimes coupled with a heat treatment) and the Bentotest are still used. In this study, we show that all these tests give much higher estimates of the haze risk than the risk assessed by a 24-48h treatment at 42°C, which represents a heat wave.
Read More

PROTEOMIC STUDY OF THE USE OF MANNOPROTEINS BY OENOCOCCUS OENI TO IMPROVE MALOLACTIC FERMENTATION

Malolactic fermentation (MLF) is a desired process to decrease acidity in wine. This fermentation, carried out mostly by Oenococcus oeni, is sometimes challenging due to the wine stress factors affecting this lactic acid bacterium. Wine is a harsh environment for microbial survival due to the presence of ethanol and the low pH, and with limited nutrients that compromise O. oeni development. This may result in slow or stuck fermentations. After the alcoholic fermentation the nutrients that remain in the medium, mainly released by yeast, can be used in a beneficial way by O. oeni during MLF.

Read More

CHANGES IN METABOLIC FLUXES UNDER LOW PH GROWTH CONDITIONS: CAN THE SLOWDOWN OF CITRATE CONSUMPTION IMPROVE OENOCOCCUS OENI ACID-TOLERANCE?

Oenococcus oeni is the main Lactic Acid Bacteria responsible for malolactic fermentation, converting malic acid into lactic acid and carbon dioxide in wines. Following the alcoholic fermentation, this second fermentation ensures a deacidification and remains essential for the release of aromatic notes and the improvement of microbial stability in many wines. Nevertheless, wine is a harsh environment for microbial growth, especially because of its low pH (between 2.9 and 3.6 depending on the type of wine) and nutrient deficiency. In order to maintain homeostasis and ensure viability, O. oeni possesses different cellular mechanisms including organic acid metabolisms which represent also the major pathway to synthetize energy in wine.

Read More

HYBRID GRAPEVINE CV BACO BLANC, BETWEEN TRADITION AND MODERNISM: FOCUS ON ENDOGENOUS EUGENOL AS RESISTANCE FACTOR TO BOTRYTIS CINEREA

The well-known antifungal and antibiotic molecule, eugenol, is widely spread in various plants including clove, basil and bay. It is also abundant in the hybrid grapevine cultivar (cv) Baco blanc (Vitis vi-nifera x Vitis riparia x Vitis labrusca), created by François Baco (19th century) in the Armagnac region. This study confirmed this cv as highly resistant to Botrytis cinerea by comparing fruit rot incidence and severity with two Vitis vinifera cultivars: Folle Blanche and Ugni Blanc. We have demonstrated the efficiency of eugenol in vitro, by further investigating the effect of small concentrations of eugenol, 3 to 4 ppm (corresponding to IC10), on B. cinerea. By comparing the two major modes of action (direct or volatile antibiosis), the vapour inhibiting effect of eugenol was more powerful. In the skin of Baco blanc berry, the total eugenol concentration reached a maximum at veraison, i.e. 1118 to 1478 μg/kg.

Read More

HOW DOES ULTRASOUND TREATMENT AFFECT THE AGEING PROFILE OF AN ITALIAN RED WINE?

Many wine styles require moderate or extended ageing to ensure optimal consumer experience. However, few consumers have the interest or ability to age wine themselves, and holding wine in optimal conditions for extended periods is expensive for producers. A study was conducted on the use of ul-trasound energy on wine, with particular reference to its impact on sensory and chemical profiles. The OIV has authorised the use of ultrasound for processing crushed grapes (must) in Resolution OENO 616-2019, but not yet for finished wine1,2.

Read More