Beverages

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.

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.

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.