November 2024
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15 Reads
Food Research International
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November 2024
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15 Reads
Food Research International
October 2023
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161 Reads
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10 Citations
Food Research International
While most producers in recent decades have relied on commercial yeasts (ADY) as their primary choice given their reliability and reproducibility, the fear of standardising the taste and properties of wine has led to the employment of alternative strategies that involve autochthonous yeasts such as pied de cuve (PdC) and spontaneous fermentation (SF). However, the impact of different fermentation strategies on wine has been a subject of debate and speculation. Consequently, this study describes, for the first time, the differences between the three kinds of fermentation at the metabolomic, chemical, and sensory levels in two wines: Chardonnay and Pinot Noir. The results showed how the yeast chosen significantly impacted the molecular composition of the wines, as revealed by metabolomic analysis that identified biomarkers with varying chemical compositions according to the fermentation modality. Notably, higher numbers of lipid markers were found for SF and PdC than ADY, which contained more peptides. Key molecules from the metabolic amino acid pathway, which are addressed in this article, showed evidence of such variations. In addition, the analysis of volatile aromatic compounds revealed an increase in groups of compounds specific to each fermentation. The sensorial analysis of Chardonnay wine showed a more qualitative sensory outcome (Higher fruit intensity) for ADY and SF compared to PdC. Our finding challenges the common speculation among wine producers that autochthonous yeast fermentations may offer greater complexity and uniqueness in comparison to commercial yeast
... The selection strategy is mainly based on rapid adaptation and metabolic activity of microorganisms to vegetable and fruit ecosystems. What is clear is that isolating strains from spontaneous fermentation with high acid concentrations is an effective way to obtain potentially adaptable strains because it is more adapted to unique ecological environments (Álvarez-Barragán et al., 2023). Researchers improve the appearance and color parameters of Chinese bayberry pomace beverage through synergistic effects of mixed starters , because of interaction with acetaldehyde, acetic acid, and lactic acid produced by lactic acid bacteria and acetic acid bacteria. ...
October 2023
Food Research International