Beverages

Pulque is a traditional Mexican beverage produced through the fermentation of agave sap (aguamiel). Its primary sensory properties are attributed to the fermentative activity of Saccharomyces cerevisiae, Leuconostoc mesenteroides, and Zymomonas mobilis. However, the overproliferation of these microorganisms results in an extremely short shelf life, which hinders its commercialization. Tomatillo accrescent calyx extract (TACE) shows potential as a food preservative due to its high physalin content. Therefore, this study aimed to evaluate the effect of adding microencapsulated TACE on the shelf life and organoleptic properties of pulque. The extract demonstrated effective antimicrobial activity against L. mesenteroides, Z. mobilis, and S. cerevisiae, successfully delaying further fermentation. Additionally, the addition of TACE prevented an excessive increase in acidity, maintaining values suitable for consumption for up to 15 days, in accordance with regulatory standards, while the viscosity and alcohol content were not negatively affected. These findings suggest that TACE has significant potential for preserving both the microbiological and sensory quality of pulque.

The increasing popularity of fermented beverages, such as kombucha, has prompted the search of alternative ingredients with distinct functional and sensory properties. Orange (Citrus sinensis L. Osbeck) peel, an abundant by-product of the citrus industry, represents a valuable natural source of flavanones associated with multiple health benefits, offering a suitable substrate for fermentation. In this context, the present study proposes the valorisation of this by-product through the development of a new fermented beverage analogous to kombucha, rich in bioactive flavanones. During the fermentation process, variations were observed in physicochemical quality parameters (pH (4.86–2.91), titratable acidity (maximum 0.45% as acetic acid), and total soluble solids (TSS) (6.90–7.05 °Brix), as well as in the fermentation metabolites and substrates: sucrose (73.99–45.75 g/L), fructose (0.98–6.87 g/L), glucose (1.60–1.35 g/L), ethanol (0.06–0.24 g/L), and acetic acid (0.45–3.00 g/L). On the other hand, the initial total flavanone content (11.85 mg/100 mL), of which 70% corresponded to hesperidin, decreased during fermentation but then remained stable, reaching a final concentration of 5.72 mg/100 mL. Overall, these results highlight the potential of orange peel by-products for the development of innovative fermented beverages with a high content of bioactive flavanones, which are distinct from conventional tea-based kombucha. Moreover, this strategy represents a potential approach for this citrus waste valorisation, contributing to improved resource efficiency and supporting the transition towards a circular economy.

The aim of this study was to develop and characterize a wine-based flavored beverage produced from single-varietal white Moscatel wine with the incorporation of freeze-dried strawberry extract (cv. Fortuna Original^®), and to evaluate its physicochemical, chromatic, and short-term sensory stability over 20 days. Five formulations (0, 4, 6, 8, and 12 g extract per 500 mL) were analyzed after 10 and 20 days of storage. The incorporation of strawberry extract led to increased total acidity and slight dilution of alcohol content (from ≈7.1% to 6.9% v/v), while pH and density remained stable, indicating the preservation of the physicochemical structure of the wine matrix. Chromatic parameters showed modulation associated with strawberry-derived pigments, with reduced variability over time, suggesting short-term color stabilization. Analytical results demonstrated low coefficients of variation for most parameters after 20 days, indicating system consistency during storage. Sensory evaluation revealed that the formulation containing 6 g of extract exhibited a higher aromatic intensity and enhanced red fruit perception compared to the control wine. Overall, the results demonstrate that the incorporation of freeze-dried strawberry extract into a white wine matrix is technologically feasible and enables the controlled modulation of physicochemical and sensory properties without compromising short-term stability.