Abstract
Numerous traditional low-alcohol fermented beverages produced from fruit or vegetables are described around the world. Fruit and vegetables and lactic fermented products both present nutritional benefits, which give reasons for the recent expansion of non-dairy lactic fermented juices on the market. In addition, fruit and vegetable juices are new carriers for probiotic bacteria. Specific phenotypic traits of lactic acid bacteria (LAB) are required so that LAB can effectively grow in fruit or vegetable juices, increase their safety and improve their sensory and nutritional quality. From the diversity of microbiota of spontaneous fermentations, autochthonous starters can be selected, and their higher performance than allochthonous LAB was demonstrated. Achieving long-term storage and constant high quality of these beverages requires additional processing steps, such as heat treatment. Alternatives to conventional treatments are investigated as they can better preserve nutritional properties, extract bioactive compounds and promote the growth and metabolism of LAB. Specific processing approaches were shown to increase probiotic viability of fruit and vegetable juices. More knowledge on the metabolic activity of lactic acid bacterium consortium in fruit or vegetable juices has become a bottleneck for the understanding and the prediction of changes in bioactive compounds for functional beverages development. Hopefully, the recent developments of metabolomics and methods to describe enzymatic machinery can result in the reconstruction of fermentative pathways.
Highlights
Traditional fermented foods and beverages have been made for centuries in many regions of Europe, Asia, America and Africa
We examine the literature on traditional fruit and vegetable fermented beverages and new trends, with regards to the characteristics of lactic acid bacteria (LAB) diversity, the impact of processing steps, and the reputed nutritional and health benefits
Taking into account the findings reported by literature, we can assume that Ohmic Heating (OH) treatment can be effectively used to pasteurize fresh fruit or vegetable juices with minimal sensory and functional deterioration prior to their fermentation
Summary
Traditional fermented foods and beverages have been made for centuries in many regions of Europe, Asia, America and Africa. Lactic acid fermentation is recognized to improve nutritional properties, flavor, and health-related aspects of food products [4] This process improves the organoleptic properties of food matrixes and their acceptability on top of shelf-life properties [4,5]. The most common genera used were Lactobacillus, Leuconostoc, Weissella and Bifidobacterium, obtained commercially or isolated from plants These bacteria share the ability to produce lactic acid, and in a strain-dependent way, aromatic compounds, exopolysaccharides, bacteriocins, and enzymes implied in the increase in food safety and shelf life [9]. We examine the literature on traditional fruit and vegetable fermented beverages and new trends, with regards to the characteristics of LAB diversity, the impact of processing steps, and the reputed nutritional and health benefits. Recent achievements with “omic” tools are shown to be powerful to increase knowledge for the successful development of promising functional beverages
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