Abstract
Most commercialized red wines are produced through alcoholic fermentation performed by yeasts of the Saccharomyces genus, and a second fermentation performed by lactic bacteria of the Oenococus oeni species once the first is completely finished. However, the classical process can suffer complications, of which the risks can increase in grape juices with high contents of sugar and pH. Due to climate change, these situations are becoming more common in the winemaking industry. The main risks in those scenarios are alcoholic-fermentation stops or sluggish and undesirable bacteria development while alcoholic fermentation is not finished yet and wine still contains residual sugars. The study propose a novel alternative that offers a solution or reduces the risk of those scenarios while increasing acidity, which is another serious problem of warm viticulture regions. The alternative consists of the combined use of Lachancea thermotolerans to reduce the pH of musts that suffer from a lack of acidity, Lactiplantibacillus plantarum (formerly Lactobacillus plantarum) to achieve malic acid stability during the first stages of alcoholic fermentation, and Saccharomyces bayanus to complete the alcoholic fermentation in difficult wines of high potential alcohol degree of over 15% (v/v). The new proposed biotechnology produced wines with higher final concentrations in lactic acid, glycerol, color intensity, ethyl lactate and 2-phenyl ethyl acetate in 2.39 g/L, 0.52 g/L, 21%, 48% and 37% respectively than the classical methodology where Saccharomyces genus performs alcoholic fermentation and later Oenococus oeni performs malolactic fermentation. Additionally, the new alternative produced wines with lower concentration in ethanol, pH, acetic acid, ethyl acetate, diacetyl and 1-propanol in 0.37% (v/v), 0.26, 0.08 g/L, 22%, 69% and 28% respectively than the classic method.
Highlights
Several viticulture areas of Spain suffer from musts that contain high concentrations of sugar and low contents of acids that generate a pH close to 4
Treatments where L. thermotolerans began the fermentation showed slower initial fermentation kinetics than those that were begun by S. bayanus
No significant fermentation kinetics took place between simultaneous fermentations involving lactic bacteria and their controls, they lasted a couple of days longer
Summary
Several viticulture areas of Spain suffer from musts that contain high concentrations of sugar (over 250 g/L) and low contents of acids that generate a pH close to 4. Several other global wine regions could be in similar situations for specific areas or local early maturing cultivars. These chemical characteristics are due to common over-ripeness processes that occur in warm viticultural areas. Other regions that will suffer the effects of climate change will probably suffer similar problems. Under those scenarios, alcoholic fermentations usually last for more than 15–21 days and may occasionally experience sluggishness or stopping. During the difficult alcoholic-fermentation endings where the sulfur dioxide level is low and there are still significant concentrations of residual sugars, undesirable spontaneous spoilage microorganisms such as lactic bacteria [1] or Brettanomyces spp. [2]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
