Beverages

26 pages, 1254 KB

Open AccessReview

Kombucha as a Sustainable Source of Metabiotics: Potential, Applications, and Future Perspectives

by Atittaya Tandhanskul, Samatcha Krungkaew, Luoluo Li, Sai Aung Kham and Lina Yonekura

Beverages 2025, 11(6), 173; https://doi.org/10.3390/beverages11060173 - 3 Dec 2025

Kombucha is gaining global recognition for its potential health benefits. While traditionally made from sweetened tea, researchers are increasingly exploring local ingredients and agricultural byproducts as alternative substrates for SCOBY fermentation. As a functional beverage that embodies the concept of metabiotics—encompassing live or [...] Read more.

Kombucha is gaining global recognition for its potential health benefits. While traditionally made from sweetened tea, researchers are increasingly exploring local ingredients and agricultural byproducts as alternative substrates for SCOBY fermentation. As a functional beverage that embodies the concept of metabiotics—encompassing live or non-viable probiotics and their bioactive metabolites. This review highlights the holistic health benefits and sustainability aspects of kombucha. Both the fermented beverage, rich in bioactive compounds, and the cellulose-based zoogleal mat can be utilized in various applications, including medical and industrial uses. Moreover, the increasing use of local ingredients and agricultural byproducts as alternative substrates for kombucha production may further improve its sustainability and expand the range of its functional properties. Kombucha has shown promising antioxidant, anti-inflammatory, antimicrobial, anticancer, and antidiabetic properties in pre-clinical studies, positioning it as an emerging functional food. However, further clinical trials and stronger regulatory frameworks are essential to validate its health claims and ensure consumer safety. Full article

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16 pages, 771 KB

Open AccessArticle

Analytical and Chemometric Evaluation of Yerba Mate (Ilex paraguariensis A.St.-Hil.) in Terms of Mineral Composition

by Justyna Ośko, Aleksandra Bojarowska, Wiktoria Orłowska and Małgorzata Grembecka

Beverages 2025, 11(6), 172; https://doi.org/10.3390/beverages11060172 - 1 Dec 2025

Abstract

Yerba mate is a popular infusion originating in South America (Brazil, Argentina, Paraguay, and Uruguay). The leaves and shoots of the Paraguayan holly (Ilex paraguariensis A.St.-Hil.), which are used to prepare the drink, contain numerous macro- and microelements. Their content in the [...] Read more.

Yerba mate is a popular infusion originating in South America (Brazil, Argentina, Paraguay, and Uruguay). The leaves and shoots of the Paraguayan holly (Ilex paraguariensis A.St.-Hil.), which are used to prepare the drink, contain numerous macro- and microelements. Their content in the plant depends on a number of factors, such as soil mineral composition, cultivation methods, and climatic conditions. The aim of this study was to assess the elemental composition of yerba mate products with respect to their geographical origin. The dried plant and infusions were analysed using flame atomic absorption spectrometry and UV-Vis spectrophotometry for the content of 14 elements (Ca, Na, K, Mg, Cu, Cd, Co, Ni, Mn, Zn, Fe, Cr, Pb, and P). The most abundant macroelement in all analysed products was potassium (K) (1350 ± 167 mg/100 g). Yerba mate from Uruguay contained the highest levels of the analysed macroelements. The highest concentration among microelements was determined for Mn (135 ± 18.4 mg/100 g), for which the highest percentage of the daily requirement was also achieved as a result of consuming 200 mL of the infusion Products originating from Brazil and Paraguay exceeded the maximum permissible level of cadmium (Cd, 0.04 mg/100 g) in dried yerba mate, as specified by the Brazilian Health Regulatory Agency (ANVISA). Multivariate chemometric techniques enabled the differentiation of yerba mate samples according to their geographical origin. Full article

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21 pages, 744 KB

Open AccessReview

Can Plant-Based Milk Alternatives Fully Replicate UHT Cow Milk? A Review of Sensory and Physicochemical Attributes

by Anesu A. Magwere, Amy Logan, Shirani Gamlath, Joanna M. Gambetta, Sonja Kukuljan and Russell Keast

Beverages 2025, 11(6), 171; https://doi.org/10.3390/beverages11060171 - 1 Dec 2025

Abstract

Plant-based milk alternatives (PBMA) have emerged as popular substitutes for cow milk, driven by health, environmental, and ethical considerations. However, their ability to replicate the sensory and physicochemical properties of dairy remains a critical challenge for industry. This review critically examines the extent [...] Read more.

Plant-based milk alternatives (PBMA) have emerged as popular substitutes for cow milk, driven by health, environmental, and ethical considerations. However, their ability to replicate the sensory and physicochemical properties of dairy remains a critical challenge for industry. This review critically examines the extent to which almond, soy, and oat PBMA replicate key sensory attributes of ultra-high temperature (UHT) full cream cow milk, focusing on appearance, texture, and flavour. Furthermore, it explores the relationship between these sensory attributes and the physicochemical properties of PBMA to elucidate the underlying reasons for the observed differences. A comparative analysis of compositional differences reveals fundamental limitations linked to plant protein functionality, carbohydrate structure, fat composition, and mineral fortification, all of which contribute to disparities in creaminess, mouthfeel, colour, and flavour. Technological strategies such as particle size reduction, enzymatic hydrolysis, and flavour masking have improved specific attributes, yet no PBMA fully replicates the holistic sensory experience of dairy. Emerging approaches, including blended formulations, precision fermentation, and artificial intelligence (AI)-driven optimisation, show promise in narrowing these gaps. Nonetheless, a complete replication of UHT cow milk remains elusive, highlighting the need for continued research and innovation to either approximate dairy properties more closely or enhance PBMA’s unique qualities to drive consumer acceptance. Full article

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16 pages, 1046 KB

Open AccessArticle

Preparation of “Ginger-Enriched Wine” and Study of Its Physicochemical and Organoleptic Stability

by Theodora Mavrogianni, Eirini Intzirtzi, Vassilios K. Karabagias, Dimitrios G. Lazaridis, Nikolaos D. Andritsos, Vassilios Triantafyllidis and Ioannis K. Karabagias

Beverages 2025, 11(6), 170; https://doi.org/10.3390/beverages11060170 - 1 Dec 2025

Abstract

Wine is the world’s leading alcoholic beverage, with Greece having a centuries-old history of winemaking processes. A common practice among winemakers is the addition of herbs and plants to wine, which is believed to increase its antioxidant capacity. A well-known example is retsina, [...] Read more.

Wine is the world’s leading alcoholic beverage, with Greece having a centuries-old history of winemaking processes. A common practice among winemakers is the addition of herbs and plants to wine, which is believed to increase its antioxidant capacity. A well-known example is retsina, produced from resin. This paper is based on the study of Roditis Alepou (Roditis Fox) and Muscat of Patras, two euphemistic grape varieties of Achaia, at different stages of maturity, with the addition of ginger to prepare ginger-enriched wine. Ginger is considered one of the most ancient plants, with its main cultivation countries being India and Malaysia. The present study included physicochemical analyses, involving total and effective acidity of the samples, antioxidant capacity, total phenolics, and pigments in the spectra of 420, 520, and 620 nm. This work aimed to study the wine prepared by these indigenous grape varieties of Achaia with added ginger at different concentrations (0.2%, 0.5%, and 1.2%, w/v) post-fermentation, and to determine if it conforms with the typical physicochemical characteristics of dry white wine. An increase in total and effective acidity of the samples was observed. Some fluctuations in total phenolics and antioxidant capacity were noted. Finally, pigments showed increased values in all three spectra. The organoleptic evaluation yielded encouraging results, leading us to conclude that the product warrants further study, with prospects for producing wine aromatized with ginger or ginger extract. Full article

(This article belongs to the Section Wine, Spirits and Oenological Products)

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17 pages, 1409 KB

Open AccessFeature PaperArticle

Barley Wine in Focus: NMR Metabolomics Reveals Style and Barrel Aging Differences

by Plamen Chorbadzhiev, Dessislava Gerginova and Svetlana Simova

Beverages 2025, 11(6), 169; https://doi.org/10.3390/beverages11060169 - 1 Dec 2025

Abstract

Barley wine is one of the most chemically complex and historically significant beer styles, yet its molecular composition remains largely unknown. This study aims to create the first detailed molecular framework for understanding the chemical diversity of barley wine and cereal wines. The [...] Read more.

Barley wine is one of the most chemically complex and historically significant beer styles, yet its molecular composition remains largely unknown. This study aims to create the first detailed molecular framework for understanding the chemical diversity of barley wine and cereal wines. The chemical diversity of barley wines and related “cereal wines” made from wheat, oats, and rye, including barrel-aged varieties, is examined using ¹H nuclear magnetic resonance (NMR) metabolomics. Distinct cereal-dependent signatures were revealed by multivariate analyses. High levels of fusel alcohols and phenolic acids were present in barley wines. Elevated levels of pyruvate and aromatic amino acids were found in wheat wines, and high levels of maltodextrin, arabinose, and trigonelline were found in oat and rye wines. A comparison of sub-styles showed that English and American barley wines were different based on ester and complex sugar profiles. Barrel aging introduces changes dependent on the barrel’s origin. A reliable classification of barrel origin was allowed for by a decision tree with four diagnostic metabolites—5-hydroxymethylfurfural (HMF), acetaldehyde, mannose, and tryptophan. The way in which raw materials, fermentation conditions, and the reuse of barrels collectively influence their metabolomes is exemplified. Verifying the authenticity of beer, evaluating its quality, and generating new ideas for high gravity brewing are all cases in point for this approach. Full article

(This article belongs to the Section Quality, Nutrition, and Chemistry of Beverages)

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18 pages, 3343 KB

Open AccessArticle

Chitosan Hydrochloride Applied as a Grapevine Biostimulant Modulates Sauvignon Blanc Vines’ Growth, Grape, and Wine Composition

by Matteo Marangon, Alessandro Botton, Franco Meggio, Anna Lante, Federica Tinello, Alberto De Iseppi, Christine Mayr Marangon, Simone Vincenzi and Andrea Curioni

Beverages 2025, 11(6), 168; https://doi.org/10.3390/beverages11060168 - 1 Dec 2025

Abstract

An increasing trend toward alternative methods in grapevine protection is evident, diverging from conventional chemical approaches. Biostimulants, such as chitosan hydrochloride, are compounds able to elicit the synthesis of plants’ metabolites, leading to an increase in their natural defence mechanism. Some of these [...] Read more.

An increasing trend toward alternative methods in grapevine protection is evident, diverging from conventional chemical approaches. Biostimulants, such as chitosan hydrochloride, are compounds able to elicit the synthesis of plants’ metabolites, leading to an increase in their natural defence mechanism. Some of these metabolites could potentially impact wine sensory properties such as colour, mouthfeel, and aroma. This study investigates the effect of chitosan hydrochloride treatment on Sauvignon blanc vines, isolating impacts on plant, grape, and wine levels. Using a randomized block design with 74 potted plants grown in a glasshouse, the study found that foliar chitosan application did not affect plant growth or phenolic compound accumulation in the leaves. Conversely, it significantly decreased polyphenol oxidase (PPO) activity and increased antioxidant activity and polyphenolic content in grape berries. Treated berries exhibited doubled protein content, less thaumatin-like proteins, and more β-glucanases and chitinases than control grapes. Microvinifications revealed that wines from treated grapes had higher total polyphenols, polysaccharides, Abs 320 nm values, and total proteins than control wines. These preliminary results suggest that chitosan application affects key grape metabolites with potential implications for wine quality, warranting further investigation. Full article

(This article belongs to the Section Wine, Spirits and Oenological Products)

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22 pages, 7278 KB

Open AccessFeature PaperArticle

The Volatile Composition of Commercially Available New England India Pale Ales as Defined by Hop Blending

by Scott C. Frost, Serena J. Laing, Albert Robbat, Jr. and Colin M. Orians

Beverages 2025, 11(6), 167; https://doi.org/10.3390/beverages11060167 - 28 Nov 2025

Abstract

New England India Pale Ales (NEIPAs) are characterized by their hazy appearance and intense hop-derived aroma. These characteristics are central to their consumer appeal and market identity, yet the chemical drivers of these qualities remain poorly defined. This study aimed to investigate how [...] Read more.

New England India Pale Ales (NEIPAs) are characterized by their hazy appearance and intense hop-derived aroma. These characteristics are central to their consumer appeal and market identity, yet the chemical drivers of these qualities remain poorly defined. This study aimed to investigate how hop profile influences NEIPA chemistry, emphasizing the role of Citra in defining volatile composition. Four profiles were evaluated: Single Hop, Citra; Multiple Hops, with Citra; Single Hop, Other; and Multiple Hops, without Citra. Volatile compounds were analyzed using a combination of sequential two-dimensional gas chromatography-mass spectrometry (GC–GC/MS) and one-dimensional gas chromatography-mass spectrometry (GC-MS). Multivariate statistical analysis was used to identify which compounds differentiated the four hop profiles. Esters, monoterpenes, and sesquiterpenes all contributed to differences across hop profiles. Inclusion of Citra hops yielded distinct volatile chemistry marked by isoamyl acetate, methyl geranate, ethyl cinnamate, and (E,E)-farnesol. By contrast, blended hop profiles showed greater chemical diversity. These findings demonstrate that hop blending alters beer chemistry beyond the sum of individual hops and identify key compounds that may serve as markers of blended versus single-hop NEIPAs. This work provides new insights into the chemical drivers of hop aroma complexity and establishes a framework for connecting hop usage, beer chemistry, and sensory outcomes. Full article

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14 pages, 1680 KB

Open AccessArticle

Shelf Life and Sensory Evaluation of a Potentially Probiotic Mead Produced by the Mixed Fermentation of Saccharomyces boulardii and Kombucha

by Ricardo Donizete Teixeira, Handray Fernandes de Souza, Fabiano Vaquero Silva Junior, Felipe Donizete Teixeira, Karina Nascimento Pereira, Amanda Cristina Dias de Oliveira, Adriano Gomes da Cruz, Igor Viana Brandi, Giovana Fumes Ghantous and Eliana Setsuko Kamimura

Beverages 2025, 11(6), 166; https://doi.org/10.3390/beverages11060166 - 27 Nov 2025

Abstract

Mead is a fermented alcoholic beverage obtained through a diluted honey solution and the action of yeasts. Although a potentially probiotic mead obtained by mixed fermentation of Saccharomyces cerevisiae var. boulardii with kombucha has already been proposed in the scientific literature, aspects regarding [...] Read more.

Mead is a fermented alcoholic beverage obtained through a diluted honey solution and the action of yeasts. Although a potentially probiotic mead obtained by mixed fermentation of Saccharomyces cerevisiae var. boulardii with kombucha has already been proposed in the scientific literature, aspects regarding the shelf life and sensory properties of this product must be evaluated in order to provide further knowledge for its potential market introduction. The present study aimed to evaluate the shelf life and sensory profile of potentially probiotic mead produced by mixed fermentation of S. boulardii and kombucha. The main results showed that the microorganisms in the mead exhibited fermentative metabolic activity, albeit reduced, under refrigerated storage conditions, with a decrease in soluble solids and an increase in alcohol content observed during storage. Mead with S. boulardii and kombucha maintained microbial viability above 6 log CFU/mL for both yeasts and lactic acid bacteria up to 60 days of storage, meeting the minimum recommended count for probiotic foods. For the sensory analysis, mead with S. boulardii and kombucha showed higher acceptance and purchase intention, being characterized by sensory attributes such as carbonated, effervescent, flavorful, honey taste, sweeter, refreshing, and less alcoholic. In conclusion, potentially probiotic mead produced with S. boulardii and kombucha presents a shelf life of 60 days and high sensory acceptability. Full article

(This article belongs to the Special Issue Probiotics Empowering the Future of Beverages)

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26 pages, 1033 KB

Open AccessReview

Red Wine Aging in Oak Barrels: The Influence of Toasting Levels on Aromatic Profile, Phenolic Composition, and Sensory Properties

by Tanja Marković

Beverages 2025, 11(6), 165; https://doi.org/10.3390/beverages11060165 - 25 Nov 2025

Abstract

The aging of wine in oak barrels is a crucial stage in winemaking, greatly influencing its chemical composition, sensory characteristics, and overall quality. Since the Roman Empire, oak barrels have replaced clay amphorae due to their practical and sensory advantages. During barrel aging, [...] Read more.

The aging of wine in oak barrels is a crucial stage in winemaking, greatly influencing its chemical composition, sensory characteristics, and overall quality. Since the Roman Empire, oak barrels have replaced clay amphorae due to their practical and sensory advantages. During barrel aging, interactions between wine, wood, and oxygen improve structure, reduce astringency, develop aromas, and stabilize color. Oak barrels undergo a toasting process that enhances their chemical reactivity and influence on wine. The degree of toasting, which ranges from light to heavy, determines the type and concentration of extractable compounds and shapes the aroma and phenolic profile. Light toasting preserves tannin structure and fruity notes, while heavy toasting releases vanillin, lactones, and caramelized products that contribute to smoky aromas. Factors such as oak species, wood age, processing method, and toasting level all contribute to the final wine profile. This review summarizes the latest findings on the influence of toasting intensity on the chemical composition of red wines, with a focus on aromatic and phenolic compounds and their sensory effects. Extraction mechanisms and their role in defining wine characteristics are also discussed, providing guidance for winemakers to optimize barrel toasting strategies and achieve desired wine styles and qualities. Full article

(This article belongs to the Section Quality, Nutrition, and Chemistry of Beverages)

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20 pages, 712 KB

Open AccessArticle

Biotechnological Valorisation of Oilseed Cakes in the Formulation of Vegan Yoghurt-like Fermented Beverages

by Oxana Radu, Tatiana Capcanari, Alina Boiștean and Eugenia Covaliov

Beverages 2025, 11(6), 164; https://doi.org/10.3390/beverages11060164 - 24 Nov 2025

Abstract

The sustainable valorisation of agro-industrial by-products offers a promising pathway to address global protein demand while supporting circular food systems. This study explored the biotechnological potential of pumpkin (Cucurbita pepo), sunflower (Helianthus annuus), and walnut (Juglans regia L.) [...] Read more.

The sustainable valorisation of agro-industrial by-products offers a promising pathway to address global protein demand while supporting circular food systems. This study explored the biotechnological potential of pumpkin (Cucurbita pepo), sunflower (Helianthus annuus), and walnut (Juglans regia L.) oilseed cakes as substrates for developing vegan yoghurt-like fermented beverages. Each formulation was fermented with Streptococcus thermophilus and Lactobacillus delbrueckii subsp. bulgaricus, and comprehensively evaluated for composition, functionality, sensory properties, and bioactivity. The oilseed-based beverages exhibited protein levels between 3.7–4.6%, fibre content up to 1.9%, and reduced syneresis (14–18%) compared with the commercial almond-based product (21.5%). The walnut-based variant (WOCY) showed the highest total polyphenol content (1108.97 mg GAE kg⁻¹) and antioxidant activity (412.54 mg Trolox kg⁻¹ DPPH; 51.5 mg TE g⁻¹ DW ABTS), surpassing both the almond-based vegan yoghurt (238.82 mg GAE kg⁻¹) and dairy reference (96.10 mg GAE kg⁻¹). Preliminary sensory profiling through the Check-All-That-Apply (CATA) method indicated that pumpkin- and walnut-based samples were most associated with “creamy texture,” “nutty aroma,” and “very pleasant” descriptors, achieving acceptance comparable to or higher than conventional yoghurts. Microbiological analyses confirmed product safety and high viable cell counts (<10⁸ CFU mL⁻¹) after 14 days of storage. Oilseed cakes serve as efficient substrates for producing nutrient-dense, antioxidant-rich, and sensorially appealing plant-based fermented beverages, supporting functional food innovation and promoting circular bioeconomy through the sustainable valorisation of agro-industrial by-products. Full article

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21 pages, 1378 KB

Open AccessReview

Significance of Grape Phenolic Compounds for Wine Characteristics: Dynamics and Extractability During Fruit Maturation

by Nikolay Stoyanov, Silviya Tagareva, Tatyana Yoncheva, Vesela Shopska and Georgi Kostov

Beverages 2025, 11(6), 163; https://doi.org/10.3390/beverages11060163 - 18 Nov 2025

Abstract

The review discussed the fundamental characteristics of grape phenolic compounds, focusing on their chemical properties and significance in winemaking. Given the higher phenolic content in red wines, particular attention is devoted to attributes such as pigmentation, co-pigmentation, bitterness, and interactions with proteins—key contributors [...] Read more.

The review discussed the fundamental characteristics of grape phenolic compounds, focusing on their chemical properties and significance in winemaking. Given the higher phenolic content in red wines, particular attention is devoted to attributes such as pigmentation, co-pigmentation, bitterness, and interactions with proteins—key contributors to the perception of astringency. Phenolic compounds undergo substantial qualitative and quantitative transformations during grape ripening, which affect both their inherent properties and their extractability from solid components such as grape skins and seeds. The review also examined extractability dynamics and provides a concise overview of the analytical methods used to assess phenolic compounds in grapes and wine. Full article

(This article belongs to the Special Issue Polymers and Phenolic Compounds in Beverages)

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39 pages, 19787 KB

Open AccessArticle

Batch-Scale Simulation of Heat and Mass Transfer of Coffee Roasting in Spouted Bed Roasters

by Mark Al-Shemmeri, Peter J. Fryer, Robert Farr and Estefania Lopez-Quiroga

Beverages 2025, 11(6), 162; https://doi.org/10.3390/beverages11060162 - 17 Nov 2025

Abstract

Understanding heat and mass transfer phenomena is fundamental to successful roasting practices. These phenomena can be quantified via an energy balance over the roaster, whereby heat and mass transfer equations can be formulated. Through rigorous calibration of the simulation with experimentally derived data [...] Read more.

Understanding heat and mass transfer phenomena is fundamental to successful roasting practices. These phenomena can be quantified via an energy balance over the roaster, whereby heat and mass transfer equations can be formulated. Through rigorous calibration of the simulation with experimentally derived data obtained using a spouted bed roaster, a zero-dimensional, batch-scale model of coffee roasting was developed to predict time–temperature roasting profiles. Calibration involved implementation of (i) an airflow calibration to determine the air mass flow rate and velocity of air input to the roaster, (ii) kinetic models and empirical correlations to describe coffee’s physicochemical development during roasting and (iii) a non-linear least squares fitting procedure to estimate system-dependent parameters—such as the thermal response coefficient and heat transfer effectiveness—that are otherwise difficult to determine. In this way, user inputs of roasting parameters relevant for spouted bed roasters—batch size, airflow and inlet air temperature—were probed to capture the full kinetics of coffee roasting under various process conditions, from which rate constants for mass loss kinetics were determined. In this study, development of the zero-dimensional, batch-scale simulation is described, alongside rigorous calibration with pilot-scale roasting trials. These simulations are application-ready and can be used by product and process developers to roast coffee in silico, providing not just an informative tool, but one that can be instructive and predict requirements for raw material (green coffee) properties, roasting process conditions, or roasted coffee properties. Full article

(This article belongs to the Section Tea, Coffee, Water, and Other Non-Alcoholic Beverages)

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16 pages, 1925 KB

Open AccessArticle

Determination of Total Anthocyanin Concentration in Barbera Red Wines by Raman Spectroscopy and Multivariate Statistical Methods

by Anna Lisa Gilioli, Alessio Sacco, Andrea Mario Giovannozzi, Simone Giacosa, Antonella Bosso, Loretta Panero, Lorenzo Ferrero, Silvia Raffaela Barera, Stefano Messina, Marco Lagori, Silvia Motta, Massimo Guaita, Ettore Vittone and Andrea Mario Rossi

Beverages 2025, 11(6), 161; https://doi.org/10.3390/beverages11060161 - 17 Nov 2025

Abstract

The quantity of anthocyanins plays a crucial role in wine quality, since these phenolic compounds significantly influence the color, mouthfeel and organoleptic properties of red wines. It is therefore important to define accurate and precise methodologies to monitor the concentration of total anthocyanins [...] Read more.

The quantity of anthocyanins plays a crucial role in wine quality, since these phenolic compounds significantly influence the color, mouthfeel and organoleptic properties of red wines. It is therefore important to define accurate and precise methodologies to monitor the concentration of total anthocyanins in wine. Currently, this analysis is carried out using Ultraviolet-Visible (UV–visible) spectrophotometry. This work aims to determine an alternative methodology that is equally fast, accurate and allows in situ measurements while opening the measurement of the concentrations of other molecules of interest. The method presented consists of Raman analysis of Barbera wine samples using a portable Raman spectroscopy system. Subsequently, the collected spectra were processed using an algorithm that applies partial least squares (PLS) regression, making it possible to determine the concentration of total anthocyanins for each sample. This approach is characterized by an accuracy and precision comparable to the methodology currently in use, i.e., UV–visible spectrophotometry. It is indeed characterized by an RMSE (root mean square error) and

R^{2}

(the coefficient of determination) on the validation set of 0.010 g/L and 0.88 and on the test data of 0.007 g/L and 0.93, respectively. Full article

(This article belongs to the Topic Innovations in Grape Production and Wine Science: Toward Climate-Resilient and Sustainable Viticulture and Winemaking)

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21 pages, 731 KB

Open AccessArticle

Characterization of Microbial Population of Organic Grapes, Must and Natural Wine During Spontaneous Vinification of Limniona Red Grape Variety

by Paraskevi Bouki, Chrysanthi Mitsagga, Aphrodite Tousia Becker and Ioannis Giavasis

Beverages 2025, 11(6), 160; https://doi.org/10.3390/beverages11060160 - 17 Nov 2025

Abstract

Natural wines represent a new trend in winemaking without the use of preservatives and starter cultures, revealing the unique quality traits of grapes, wine, and terroir, but are susceptible to spoilage or undesirable fermentations. This study investigated the microbial populations associated with organic [...] Read more.

Natural wines represent a new trend in winemaking without the use of preservatives and starter cultures, revealing the unique quality traits of grapes, wine, and terroir, but are susceptible to spoilage or undesirable fermentations. This study investigated the microbial populations associated with organic grapes, must, and natural wines of the Limniona red grape variety, focusing on different production stages and fermentation vessels. Samples included immature and ripe grapes, initial and fermenting must, filtered and unfiltered wines, and final bottled and filtered wines. These were analyzed in order to enumerate key groups of microorganisms and identify beneficial yeasts and bacteria of alcoholic and malolactic fermentation, respectively, as well as potential markers of off-flavors. Culture-dependent methods were used to enumerate yeasts and bacteria, while Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry (MALDI-TOF MS) and 16S rRNA sequencing provided taxonomic resolution. Beneficial fermentation microorganisms (especially Saccharomyces yeasts) were scarce in initial grapes, where other contaminants or wild yeasts were present. Gradually, as fermentation progressed, there was a prevalence of Saccharomyces cerevisiae strains of increased diversity in matured wine, as well as several lactic acid bacteria (LAB) of malolactic fermentation. Most LAB were identified as Lactobacillus and Oenococcus species. Other bacteria from environmental sources, irrelevant to alcoholic/malolactic fermentation or spoilage, like Burkholderia, were also present during the vinification process. The type of vessel affected the type of LAB that prevail, with an abundance of Oenococcus in clay vessels versus Lactobacillus species in stainless-steel vessels. Notably, Lentilactobacillus parafarraginis can be linked to off-flavors if they represent a high percentage of the wine microbiota. These findings highlight the importance of understanding, monitoring and controlling microbial succession during production stages in order to prevent sensory faults and ensure the stable quality of natural wines. Full article

(This article belongs to the Section Beverage Technology Fermentation and Microbiology)

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16 pages, 746 KB

Open AccessArticle

How Thickener Type, Concentration, and Non-Standard Syringes Affect IDDSI Flow Test Evaluation of Thickened Plant-Based and Dairy Beverages

by Helayne Aparecida Maieves, Gerson Lopes Teixeira, Lucélia Garcia Soares, Denise Perleberg Gehling, Marielly Ewerling, Bruna Vaz da Silva, María de Cortes Sánchez-Mata and Patricia Morales

Beverages 2025, 11(6), 159; https://doi.org/10.3390/beverages11060159 - 12 Nov 2025

Abstract

Adapting low-viscosity liquids for individuals with dysphagia presents persistent challenges in both texture modification and patient compliance. This exploratory study assessed the flow characteristics and nutritional contributions of 30 beverages (22 plant-based and 8 dairy-based) across different thickener concentrations and syringe models, following [...] Read more.

Adapting low-viscosity liquids for individuals with dysphagia presents persistent challenges in both texture modification and patient compliance. This exploratory study assessed the flow characteristics and nutritional contributions of 30 beverages (22 plant-based and 8 dairy-based) across different thickener concentrations and syringe models, following the International Dysphagia Diet Standardization Initiative (IDDSI) flow test. Flow measurements were obtained using four available 10 mL syringes that differed from the IDDSI-specified model, intending to evaluate their potential impact on results and inform strategies for situations where standard syringes are unavailable. Findings show that flow performance and IDDSI classification are strongly influenced by syringe design, thickener type, and beverage composition. The use of alternative syringes introduced variability in consistency measurements, highlighting the importance of equipment standardization. Interpretation of flow levels was further complicated by transitional IDDSI thresholds and subjective assessments. Nutritionally, the study reinforces the role of hydration in dysphagia management and explores the potential of plant-based beverages to enhance both fluid intake and fiber contribution. Several samples provided meaningful contributions to daily fiber and micronutrient requirements. Importantly, the study found that half the manufacturer’s recommended thickener dose was often sufficient to achieve IDDSI compliance. These findings support the practical use of non-standard syringes in IDDSI testing, inform more efficient thickening strategies, and highlight plant-based beverages as promising alternatives to dairy in dysphagia diets. Together, they offer actionable insights for improving consistency control and nutritional quality in dysphagia care. Full article

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22 pages, 1128 KB

Open AccessArticle

Beverage Consumption Patterns in Spanish and Italian Adults: A Comparative Study

by Valentina Micheluzzi, Alessio Lo Cascio, Michela Capoferri, Michela Piredda and Elena Sandri

Beverages 2025, 11(6), 158; https://doi.org/10.3390/beverages11060158 - 6 Nov 2025

Abstract

Background: Beverage intake is a consequential yet underappreciated driver of health in Mediterranean settings. Comparative evidence for Spain and Italy based on harmonised measures is scarce. This study addresses that gap by profiling beverage portfolios and their sociodemographic correlates in parallel adult [...] Read more.

Background: Beverage intake is a consequential yet underappreciated driver of health in Mediterranean settings. Comparative evidence for Spain and Italy based on harmonised measures is scarce. This study addresses that gap by profiling beverage portfolios and their sociodemographic correlates in parallel adult samples from both countries. Methods: We conducted a cross-sectional analysis of adults in Spain (n = 483) and Italy (n = 403) using aligned, validated instruments (NutSo-HH; NutSo-HH-Ita). Outcomes were water (Wtr), sugar-sweetened soft drinks (Sfd), juice (Juc), energy drinks (End), coffee (Cff), alcohol (Alc), and episodes of intoxication (Gtd). Associations were assessed via non-parametric tests, multivariable linear models, and an EBIC-selected Gaussian graphical model (GGM). Main results: Italians reported higher Alc and Gtd; Spaniards reported higher Sfd and Juc. Wtr was comparable across countries, and Cff differences were marginal. Age and sex emerged as the most consistent correlates (older age and male sex with higher Alc; younger age with higher Sfd), whereas education and income were not stable determinants. The GGM suggested behavioural clustering of Sfd–Juc–End, with weak partial correlations for other beverages after adjustment. Implications: Distinct country profiles imply differentiated priorities. In Spain, interventions could prioritise reducing sugar-sweetened beverage intake among younger adults through age-targeted primary care counselling, mandatory water (and unsweetened milk) availability in schools, tiered excise taxes on sugar-sweetened drinks, and restrictions on child- and youth-directed marketing of high-sugar beverages. In Italy, primary care and community health services could routinely screen adults for risky alcohol use and deliver brief, culturally attuned advice that promotes lower-risk patterns of wine consumption during meals. Given the cross-sectional design, self-report measures, and non-probabilistic sampling, findings should be interpreted as context-sensitive markers rather than causal determinants; nevertheless, they highlight concrete prevention approaches and regulatory levers for each country’s beverage-related health risks. Full article

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28 pages, 836 KB

Open AccessArticle

Italian Consumers: Craft Beer or No Craft Beer, That Is the Question

by Agata Nicolosi, Donatella Di Gregorio, Valentina Rosa Laganà and Claudio Marcianò

Beverages 2025, 11(6), 157; https://doi.org/10.3390/beverages11060157 - 5 Nov 2025

Abstract

The aim of our study is to investigate the factors that drive craft beer consumption choices in Italy. To this end, we simultaneously analyze purchase intentions and actual craft beer consumption. The theoretical approach took into account the main doctrinal frameworks, particularly those [...] Read more.

The aim of our study is to investigate the factors that drive craft beer consumption choices in Italy. To this end, we simultaneously analyze purchase intentions and actual craft beer consumption. The theoretical approach took into account the main doctrinal frameworks, particularly those most widely used in marketing studies. Through PLS-SEM analysis (partial least squares structural equation modeling), we examine how consumption habits, liking, appeal, territorial identities, and perceived quality shape intentions and also the actual behavior of Italian consumers towards craft beer. The results highlight how attractiveness and interest in the craft beer phenomenon, lifestyle, and curiosity for new flavors and aromas demonstrate an openness to craft beer and a new cultural identity among consumers. In many cases, respondents stated that they wanted to support local craft breweries and the local economy. Consumer trust in agri-food products is closely linked to their perception of authenticity and compliance with quality and safety standards. A better understanding of these aspects could help everyone involved in the entire supply chain implement more effective and targeted campaigns. Full article

(This article belongs to the Section Malting, Brewing and Beer)

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11 pages, 1251 KB

Open AccessArticle

The Grape Health Index: Validation of a Chemometric Model for Quantifying the Wine Grape Infection Status

by Stephan Sommer, Steven Craig Ebersole and Sonet Van Zyl

Beverages 2025, 11(6), 156; https://doi.org/10.3390/beverages11060156 - 3 Nov 2025

Abstract

Accurately evaluating and quantifying microbial spoilage on wine grapes is a major challenge, especially in machine-harvested fruit that is no longer intact as a cluster when it arrives at the winery and cannot be visually inspected. The goal of the study was, using [...] Read more.

Accurately evaluating and quantifying microbial spoilage on wine grapes is a major challenge, especially in machine-harvested fruit that is no longer intact as a cluster when it arrives at the winery and cannot be visually inspected. The goal of the study was, using an infrared spectroscopy-based analytical system, to establish a unitless quantitative number that would reflect complex microbial spoilage and could be applied for all types of grapes with only one calibration model. Grapes (cultivars Riesling, Chenin Blanc, Chardonnay, Zinfandel and Petite Sirah) were hand-harvested in two consecutive vintages and separated in the vineyard into visually healthy clusters and infected grapes. Grapes were blended with increasing infection levels between 0 and 20% and models were created using known spoilage indicators. The resulting formula can be used to calculate a weighted index that reflects the microbial infection status of the grape material. Using a common spectroscopy instrument that is already present in larger wineries, the Grape Health Index allows for a quantitative quality assessment within two minutes at the test stand before the grape material is accepted. When visual inspection is not an option, this can help to make data-based quality and blending decisions at a very early stage. Full article

(This article belongs to the Section Wine, Spirits and Oenological Products)

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13 pages, 608 KB

Open AccessEditor’s ChoiceArticle

Design of a Coffee Alternative by Brewing Roasted Seeds from Baobab (Adansonia digitata)

by Ruth T. Ngadze, Melania Casertano and Arnau Vilas-Franquesa

Beverages 2025, 11(6), 155; https://doi.org/10.3390/beverages11060155 - 1 Nov 2025

Abstract

Background: The use of baobab seed beverages as coffee alternatives represents a novel approach to upcycling by-products. Baobab seed aqueous extract is caffeine-free and contains numerous compounds of nutritional interest. The composition and sensory characteristics of baobab seed beverage can be modulated by [...] Read more.

Background: The use of baobab seed beverages as coffee alternatives represents a novel approach to upcycling by-products. Baobab seed aqueous extract is caffeine-free and contains numerous compounds of nutritional interest. The composition and sensory characteristics of baobab seed beverage can be modulated by roasting and brewing conditions. Objective: This study aimed to assess the effect of using different fluidised bed roasting temperatures and microwave infusion on the nutritional and functional properties of the beverage. Results: Higher roasting temperatures increased solubility, melanoidin content, pH, titratable acidity, colour, phenolic content, and antioxidant activity, while the concentration of chlorogenic acid and caffeic acid decreased. Upon microwave infusion, antioxidant activity, phenolic content (gallic acid, coumaric acid, caffeic acid, and vanillic acid), protein content, and soluble fibre content increased. Chlorogenic acid was not present in microwave-infused samples, and the amount of caffeic acid decreased. The fat content remained similar across all samples. The major volatile components identified in the roasted seeds were furans and pyrazines. Conclusions: These findings highlight the potential of baobab seed beverages as coffee alternatives and the impact of roasting and brewing conditions on their nutritional and functional properties. Full article

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