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Wine is highly appreciated for its distinctive sensory characteristics, including its colour, aroma, and taste. However, unwanted microbiological activity, unbalanced concentrations of certain compounds resulting from unbalanced grape chemical compositions, and inadequate winemaking practices and storage conditions can result in sensory defects that significantly decrease wine quality. Although preventing wine defects is the best strategy, they are sometimes difficult to avoid. Therefore, when present, several fining agents or additives and technologies are available or being developed with different performances regarding their impact on wine quality. Wine stabilisation refers to removal and prevention strategies and treatments that limit visual, olfactory, gustatory, or tactile wine defects, as well as increase wine safety and stability through fining and the application of different operations carried out in wineries (filtration, pasteurisation, electrodialysis, and cold stabilisation) and the use of emerging technologies (electron-beam irradiation, high hydrostatic pressure, pulsed electric fields, ultrasound, pulsed light). Future trends in this field involve using more sustainable and environmentally friendly fining agents and technologies and developing treatments with better performance and specificity.

Technology: general issues --- Chemical engineering --- triazole pesticides --- wine --- fermentation --- sensory analysis --- flavor components --- oxidation --- membrane contactor --- polymeric pigments --- mannoproteins --- mouthfeel --- astringency --- subquality --- colour --- pressing --- extended maceration --- Sangiovese --- ladybird taint --- methoxypyrazines --- wine quality --- wine faults --- grape quality --- yeasts --- non-Saccharomyces --- off-smells --- volatile acidity --- ethylphenols --- pyranoanthocyanins --- pH control --- bioprotection --- amino acid --- yeast --- sulfur --- aroma --- aging --- QDA --- glutathione --- sulfur dioxide --- hydrolysable tannins --- light-struck taste --- storage --- white wine --- wine oxidation --- browning --- light exposure --- tannins --- reductive aromas --- atypical aging --- preventive measures --- corrective solutions --- 2,4,6-Trichloroanisole (TCA) --- ADSI cork powder --- fining agent --- phenolic profile --- chromatic characteristics --- volatile profile

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Consumers are increasingly demanding more sources of plant-based nutrition, and the food industry is responding by developing novel foods with grain-based ingredients. These products include dairy, egg and meat alternatives. Notably, in order for the production of these foods to be viable, the sustainability of the supply chain must improve and the product price must be lowered. Therefore, upcycling of grains by-products has been considered. However, the functionality and acceptability of functional foods made with upcycled ingredients from legumes and grains must be tested to ensure consumer compliance. This Special Issue of Foods aims to present the latest research on the physicochemical and sensory evaluation of plant-based alternatives to dairy, eggs and meat made with grains. Product categories include beverages, fermented beverages, dressings, bakery items and plant-based meats. Ingredients considered include, but are not limited to, protein concentrates and isolates, fibres, starches and enzymes. Particular emphasis will be given to potential applications of upcycled ingredients such as legume water (Aquafaba, Liluva), by-products of the starch industry (protein, fibre) and protein isolation (starches). Physicochemical evaluation encompasses determination of the functionality of ingredients (foaming, emulsifying and thickening), texture analysis, rheology (viscosity, pasting properties), thermal properties (thermogravimetric analysis and differential scanning calorimetry), water mobility (nuclear magnetic resonance) and image analysis. Sensory evaluation includes both trained panels and consumer preference.

Research & information: general --- Biology, life sciences --- maize snacks --- nutritional characterization --- consumer preferences --- prehistoric grinding practices --- ancient grain flours --- breadmaking --- starch gelatinization --- dough rheology --- bread quality parameters --- split yellow peas --- soaking water --- cooking water --- spray-drying --- freeze-drying --- proximate composition --- protein profile --- particle size --- colour --- sensory --- cooked rice --- processed whole wheat --- physicochemical properties --- consumer acceptance --- drivers of liking and disliking --- Lentinula edodes --- Auricularia auricula --- Tremella fuciformis --- phenolic compounds --- β-glucan --- quality --- texture --- physicochemical --- vegetable pasta --- aquafaba --- chickpea --- emulsifiers --- egg replacement --- mayonnaise --- future foods --- sustainability --- egg --- algae --- starches --- plant proteins --- bakery products --- food formulation --- alcohol --- gochujang --- Bacillus cereus --- free amino nitrogen --- Zygosaccharomyces rouxii --- extrusion --- snack --- betaine --- functional foods --- gluten-free --- pseudocereals --- whole flour --- bread quality --- response surface methodology --- multiple factor analysis --- rheology --- sensory evaluation --- dynamic mouthfeel perception --- plant-based yogurt alternative --- oat --- maize snacks --- nutritional characterization --- consumer preferences --- prehistoric grinding practices --- ancient grain flours --- breadmaking --- starch gelatinization --- dough rheology --- bread quality parameters --- split yellow peas --- soaking water --- cooking water --- spray-drying --- freeze-drying --- proximate composition --- protein profile --- particle size --- colour --- sensory --- cooked rice --- processed whole wheat --- physicochemical properties --- consumer acceptance --- drivers of liking and disliking --- Lentinula edodes --- Auricularia auricula --- Tremella fuciformis --- phenolic compounds --- β-glucan --- quality --- texture --- physicochemical --- vegetable pasta --- aquafaba --- chickpea --- emulsifiers --- egg replacement --- mayonnaise --- future foods --- sustainability --- egg --- algae --- starches --- plant proteins --- bakery products --- food formulation --- alcohol --- gochujang --- Bacillus cereus --- free amino nitrogen --- Zygosaccharomyces rouxii --- extrusion --- snack --- betaine --- functional foods --- gluten-free --- pseudocereals --- whole flour --- bread quality --- response surface methodology --- multiple factor analysis --- rheology --- sensory evaluation --- dynamic mouthfeel perception --- plant-based yogurt alternative --- oat

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Consumers are increasingly demanding more sources of plant-based nutrition, and the food industry is responding by developing novel foods with grain-based ingredients. These products include dairy, egg and meat alternatives. Notably, in order for the production of these foods to be viable, the sustainability of the supply chain must improve and the product price must be lowered. Therefore, upcycling of grains by-products has been considered. However, the functionality and acceptability of functional foods made with upcycled ingredients from legumes and grains must be tested to ensure consumer compliance. This Special Issue of Foods aims to present the latest research on the physicochemical and sensory evaluation of plant-based alternatives to dairy, eggs and meat made with grains. Product categories include beverages, fermented beverages, dressings, bakery items and plant-based meats. Ingredients considered include, but are not limited to, protein concentrates and isolates, fibres, starches and enzymes. Particular emphasis will be given to potential applications of upcycled ingredients such as legume water (Aquafaba, Liluva), by-products of the starch industry (protein, fibre) and protein isolation (starches). Physicochemical evaluation encompasses determination of the functionality of ingredients (foaming, emulsifying and thickening), texture analysis, rheology (viscosity, pasting properties), thermal properties (thermogravimetric analysis and differential scanning calorimetry), water mobility (nuclear magnetic resonance) and image analysis. Sensory evaluation includes both trained panels and consumer preference.

maize snacks --- nutritional characterization --- consumer preferences --- prehistoric grinding practices --- ancient grain flours --- breadmaking --- starch gelatinization --- dough rheology --- bread quality parameters --- split yellow peas --- soaking water --- cooking water --- spray-drying --- freeze-drying --- proximate composition --- protein profile --- particle size --- colour --- sensory --- cooked rice --- processed whole wheat --- physicochemical properties --- consumer acceptance --- drivers of liking and disliking --- Lentinula edodes --- Auricularia auricula --- Tremella fuciformis --- phenolic compounds --- β-glucan --- quality --- texture --- physicochemical --- vegetable pasta --- aquafaba --- chickpea --- emulsifiers --- egg replacement --- mayonnaise --- future foods --- sustainability --- egg --- algae --- starches --- plant proteins --- bakery products --- food formulation --- alcohol --- gochujang --- Bacillus cereus --- free amino nitrogen --- Zygosaccharomyces rouxii --- extrusion --- snack --- betaine --- functional foods --- gluten-free --- pseudocereals --- whole flour --- bread quality --- response surface methodology --- multiple factor analysis --- rheology --- sensory evaluation --- dynamic mouthfeel perception --- plant-based yogurt alternative --- oat --- n/a