terclim by ICS banner
IVES 9 IVES Conference Series 9 International Congress on Grapevine and Wine Sciences 9 2ICGWS-2023 9 The combined use of Lachancea thermotolerans and lactic bacteria in wine technology

The combined use of Lachancea thermotolerans and lactic bacteria in wine technology

Abstract

The production of most red wines that are sold involves an alcoholic fermentation carried out by yeasts of the Saccharomyces genus, and a subsequent fermentation carried out by lactic bacteria of the Oenococus oeni species after the first one is fully completed. However, the traditional process can face complications, which can be more likely in grape juices with high levels of sugar and pH. Because of climate change, these situations are more frequent in the wine industry. The main hazards in those scenarios are halts or delays in the alcoholic fermentation or the growth of unwanted bacteria while the alcoholic fermentation is not done yet and the wine still has residual sugars. The study suggests a new alternative that provides a solution or lowers the risk of those scenarios while raising acidity, which is another serious issue of warm wine regions. The alternative involves the combined use of Lachancea thermotolerans to lower the pH of musts that have a deficiency of acidity, Lactiplantibacillus plantarum to attain malic acid stability during the initial stages of alcoholic fermentation, and Saccharomyces bayanus to finish the alcoholic fermentation in challenging wines of high potential alcohol degree of over 15% (v/v). The new biotechnology suggested produced wines with higher final levels in lactic acid, glycerol, color intensity, ethyl lactate and 2-phenyl ethyl acetate than the traditional methodology where Saccharomyces genus performs alcoholic fermentation and then Oenococus oeniperforms malolactic fermentation. Moreover, the new alternative produced wines with lower levels in ethanol, pH, acetic acid, ethyl acetate, diacetyl and 1-propanol than the classic method.

References:

1)  Urbina A. et al. (2020) The Combined Use of Lachancea thermotolerans and Lactiplantibacillus plantarum (former Lactobacillus plantarum) in Wine Technology. Foods., 10(6): 1356-1365, DOI 10.3390/foods10061356
2)  Vicente J. et al. (2022) Biological management of acidity in wine industry: A review. Int. J. Food. Microbiol., 375: 109726, DOI 10.1016/j.ijfoodmicro.2022.109726

DOI:

Publication date: October 3, 2023

Issue: ICGWS 2023

Type: Article

Authors

Santiago Benito1*, Javier Vicente2, Wendu Tesfaye1, Eva Navascués1,3, Fernando Calderón1, Antonio Santos2, Domingo Marquina2       

1 Department of Chemistry and Food Technology, Polytechnic University of Madrid, 28040 Madrid, Spain
2 Department of Genetics, Physiology and Microbiology, Unit of Microbiology, Complutense University of Madrid, 28040 Madrid, Spain
3 Pago de Carraovejas, S.L.U., 47300 Penafiel, Valladolid, Spain

Contact the author*

Keywords

Lachancea thermotolerans, Lactiplantibacillus plantarum, Saccharomyces, Oenococus oeni, malic acid, lactic acid

Tags

2ICGWS | ICGWS | ICGWS 2023 | IVES Conference Series

Citation

Related articles…

Reconstructing ancient microbial fermentation genomes from the wine residues of Herod, Roman king of Judea

The fortress of the Herodium, built towards the end of the first century BCE/ante Cristo, on the orders of Herod the Great, Roman client king of Judea, attests the expansion of Roman influence in the eastern Mediterranean. During archaeological excavations of the Herodium in 2017[1], a winery was discovered on the ground floor of the palace, with an assortment of clay vessels in situ, including large dolia – clay fermentation vessels each capable of fermenting up to 300-400 L of wine. Thanks to the recent progresses in the field of paleogenomics[2], we could analyse the organic material consistent with grape pomace at the bottom of these vessels, by extracting and sequencing the DNA using shotgun metagenomics and targeted capture, aiming for enrichment of DNA from fermentation associated microbes.

Green pruning of shoots to force new sprouting of buds, in fruit set and in pea size: vegetative, productive and maturation effects, in cv. Verdejo

The context of climate crisis leads to the acceleration of technological ripening of grapes, with unsuitable loss of acidity, so various vineyard management alternatives are being considered to delay the grape ripening. The delay of the vegetative cycle towards a period of milder temperatures affects ripening, but vine behavior can vary according to the area, conduction, watering, variety, etc. A work is proposed to know the response to the green pruning of shoots, executed in fruit set and in pea size, in cv. Verdejo.

Perception, liking and emotional response of tropical fruit aromas in Chardonnay wines

Tropical fruit aromas in wines are thought to be important to wine consumers, although there is little research to confirm this statement. With so many wine styles available, it has become important to understand the qualities that are desirable to consumers and how to achieve those qualities. Thiols and esters are compounds that have been found to cause tropical fruit aromas in chardonnay (ref). Fermentation temperature gradients and skin contact were found to increase these compounds using micro scale fermentations. This work aimed to scale up these fermentations/operations to determine if the desired tropical fruit aromas could still be achieved and if there is a perceivable difference in tropical fruit aromas, liking, and emotional response in the wines at the consumer level.

Biodiversity and biocontrol ability of Trichoderma natural populations in soil vineyards from Castilla y León region (Spain)

Trichoderma is a microorganism present in many agricultural soils and some of its species could be used as natural biological control agents. In this work, the presence of natural populations of Trichoderma was estimated in soil vineyard and its biocontrol capacity against Phaeoacremonium minimum, one of the main agent causals of grapevine trunk diseases instead of using pesticides. Moreover, physicochemical variables in soil such as pH, organic matter and nutrients were evaluated to determine a possible correlation to natural populations of Trichoderma.

Application of an in vitro digestion model to study the bioaccessibility and the effect of the intestinal microbiota on the red wine proanthocyanidins 

Proanthocyanidins are important phenolic fraction for wine quality, contributing to astringency, bitterness and color. Their metabolism begins in the mouth and continues throughout the gastrointestinal tract; however, most of them are accumulated in the colon where are metabolized by the intestinal microbiota, giving rise to a whole series of phenolic acids that may have greater activity at physiological level than the precursors[1]. This study aimed to evaluate in vitro the bioaccessibility of proanthocyanidins in a red wine developed by Bodegas Pradorey, as well as to evaluate the potential effect of intestinal microbiota on polyphenols metabolism identifying and quantifying secondary metabolites.