terclim by ICS banner
IVES 9 IVES Conference Series 9 International Congress on Grapevine and Wine Sciences 9 2ICGWS-2023 9 Control of bacterial growth in carbonic maceration winemaking through yeast inoculation

Control of bacterial growth in carbonic maceration winemaking through yeast inoculation

Abstract

Controlling the development of the bacterial population during the winemaking process is essential for obtaining correct wines[1]. Carbonic Maceration (CM) wines are recognised as high-quality young wines. However, due to its particularities, CM winemaking implies a higher risk of bacterial growth: lower SO2 levels, enrichment of the must in nutrients, oxygen trapped between the clusters… Therefore, wines produced by CM have slightly higher volatile acidity values than those produced by the destemming/crushing method[2].

In this work, the bacteria present in CM vinifications under different yeast inoculation conditions were studied, in order to evaluate inoculation as a bacterial control strategy. For this purpose, three conditions were assayed: spontaneous fermentation, “pied de cuve”, and active dry yeast (ADY) inoculation.

The results showed that in the non-inoculated wines, a high bacterial population development was present in the tanks, and the finished wines showed high volatile acidity values, which did not occur in the inoculated vinifications. Thus, the control of the yeast population seems to be an effective tool to avoid bacterial alterations in CM vinifications.

Acknowledgements: This study has been financed from the Project RTI2018-096051-R-C31/C33 (MCIU/AEI/FEDER; UE).

References:

1)  Bartowsky E. J. (2009) Bacterial spoilage of wine and approaches to minimize it. Lett Appl Microbiol, 48:149-156. https://doi.org/10.1111/j.1472-765X.2008. 02505.x

2)  Santamaría P. et al (2022) Difficulties associated with small-scale production of carbonic maceration wines. Fermentation, 8, 27. https://doi.org/10.3390/fermentation8010027

DOI:

Publication date: October 13, 2023

Issue: ICGWS 2023

Type: Poster

Authors

A. R. Gutiérrez1*, P. Santamaría1, L. González-Arenzana1, P. Garijo1, C. Olarte2, and S. Sanz2

1 ICVV, Instituto de Ciencias de la Vid y el Vino Universidad de La Rioja, Gobierno de La Rioja, CSIC, Finca La Grajera, Ctra. LO-20- salida 13, 26071, Logroño, Spain
2 Departamento de Agricultura y Alimentación. Universidad de La Rioja, Spain

Contact the author*

Keywords

carbonic maceration, yeast inoculation, lactic bacteria, acetic bacteria

Tags

2ICGWS | ICGWS | ICGWS 2023 | IVES Conference Series

Citation

Related articles…

The interplay between water deficit and nitrogen and potassium nutrition in Vitis vinifera L.

Climate change is expected to provoke an increase in the frequency and intensity of drought events and water scarcity that will have detrimental effects on photosynthesis and plant yield. To sustain an appropriate plant yield under sub-optimal conditions, a common practice is the application of high amounts of fertilizers with negative environmental consequences. The present study aims at evaluating the interplay between water and nutrient availability, namely nitrogen (N) and potassium (K), in two grapevine cultivars with a different sensitivity to water shortage stress. Two-year-old Vitis Vinifera cv. Cabernet Sauvignon and Grenache grapevine plants grafted on SO4 rootstock have been transferred in pots under semi-environmental conditions.

Energy partitioning and functionality of photosystem II in water-stressed grapevines during heatwaves revealed by continuous measurements of chlorophyll fluorescence

The increased intensity and frequency of heatwaves, coupled with prolonged periods of drought, are a significant threat to viticulture worldwide. During these conditions the more exposed leaves can show visible symptoms of heat damage. We monitored the functionality of photosystem II (PSII) in the field to better understand the impact of heatwaves on canopy performance. A factorial experiment was established in summer 2023 using Shiraz grapevines in the Barossa valley of South Australia, involving water-stressed and well-watered vines.

Effects of laccase from Botrytis cinerea on the oxidative degradation kinetics of the five natural grape anthocyanins

Enzymatic browning[1] is an oxidation process that occurs in many foods that increases the brown colour[2]. This problem is especially harmful in the wine industry[3]. especially when the grapes are infected by grey rot since this fung release the oxidative enzyme laccase[4]. In the particular case of red wines, the presence of laccase implies the deterioration of the red colour and can even cause the precipitation of the coloring matter (oxidasic haze)[5].

Analysis of the interaction of melatonin with glycolytic proteins in Saccharomyces cerevisiae during alcoholic fermentation 

Melatonin is a bioactive compound with antioxidant properties, that has been found in many fermented beverages, such as beer and wine [1]. Indeed, it has been shown that yeast can synthesize melatonin during alcoholic fermentation, although its role inside the cell, as well as the metabolic pathway involved in its synthesis, is still unclear [1]. Recent studies showed that during fermentation, melatonin interacts with different proteins of the glycolytic pathway in both Saccharomyces and non-Saccharomyces yeast, for instance glyceraldehyde 3-phosphate dehydrogenase, pyruvate kinase or enolase [2].

Oxidability of wines made from Spanish minority grape varieties

The phenolic profile of a wine plays an essential role in its oxidative capacity and in both white and red wines it defines its shelf life[1]. The study of minority varieties to produce wines with peculiar characteristics necessarily includes the phenolic and oxidative characterization of the wines produced. This paper presents the study of wines made from 24 minority and majority white and red grape varieties, focusing on phenolic characteristics (total phenols, slightly polymerized phenols, highly polymerized phenols, anthocyanins…), color, as well as parameters related to the oxidability of the wines and their capacity to consume oxygen [2].