Abstract
Non-Saccharomyces yeasts have long been considered spoilage microorganisms. Currently, oenological interest in those species is increasing, mostly due to their positive contribution to wine quality. In this work, the fermentative capacity and nitrogen consumption of several non-Saccharomyces wine yeast (Torulaspora delbrueckii, Lachancea thermotolerans, Starmerella bacillaris, Hanseniaspora uvarum, and Metschnikowia pulcherrima) were analyzed. For this purpose, synthetic must with three different nitrogen compositions was used: a mixture of amino acids and ammonium, only organic or inorganic nitrogen. The fermentation kinetics, nitrogen consumption, and yeast growth were measured over time. Our results showed that the good fermentative strains, T. delbrueckii and L. thermotolerans, had high similarities with Saccharomyces cerevisiae in terms of growth, fermentation profile, and nitrogen assimilation preferences, although L. thermotolerans presented an impaired behavior when only amino acids or ammonia were used, being strain-specific. M. pulcherrima was the non-Saccharomyces strain least affected by the nitrogen composition of the medium. The other two poor fermentative strains, H. uvarum and S. bacillaris, behaved similarly regarding amino acid uptake, which occurred earlier than that of the good fermentative species in the absence of ammonia. The results obtained in single non-Saccharomyces fermentations highlighted the importance of controlling nitrogen requirements of the wine yeasts, mainly in sequential fermentations, in order to manage a proper nitrogen supplementation, when needed.
Highlights
Wine is a common product that has been consumed since antiquity and is the result of several biochemical reactions produced principally by yeasts
The main yeast responsible for wine fermentation is Saccharomyces cerevisiae, there are non-Saccharomyces yeast species involved in the process
It has been shown that Torulaspora delbrueckii enhances the complexity and fruity notes of wines [6], Hanseniaspora vineae enriches wines with fruity and flowery aromas [7], Lachancea thermotolerans increases the total acidity [8], and Metschnikowia pulcherrima reduces the ethanol levels and enhances varietal aromas [9,10]
Summary
Wine is a common product that has been consumed since antiquity and is the result of several biochemical reactions produced principally by yeasts. Several metabolites are involved in this process and are present in the final product, contributing to the final quality and complexity of the wine [1]. The main yeast responsible for wine fermentation is Saccharomyces cerevisiae, there are non-Saccharomyces yeast species involved in the process. Those non-Saccharomyces species can be found on the grape surface and, for many years, have been considered spoilage microorganisms. It has been demonstrated that some non-Saccharomyces yeasts can positively contribute to the organoleptic profile of wines, producing volatile compounds not produced by Saccharomyces strains, providing different characteristics to the final product [2,3,4,5]. The initial consumption of nutrients by non-Saccharomyces yeasts could affect the growth and survival of Saccharomyces yeasts, inoculated later [2,11,12]
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