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This Special Issue on “Beverage Sensory Modification” presents a series of articles that feature the broad sense of sensory modification with regards to beverages, either by improving their flavor, taste, and mouthfeel properties, or through prevention of spoilage. The scope goes further than the usual technological measures that modulate sensory properties and includes psychological and cross-modal influences, where the sensory modification occurs in the subject’s brain rather than as a result of modified physical–chemical properties of objects.
n/a --- isoboles --- synergy --- wine tasting --- wine perception --- water solution --- oxidative stability --- cross-modality --- taste --- vanilla flavor --- volatile phenols --- glass swirling --- wine aging --- spoilage --- CATA --- flavored milk --- cross-modal correspondence --- beverage --- time–intensity evaluation --- expectations --- temporal profile --- taste-aroma interactions --- sweetness enhancement --- opening sounds --- glass shape --- pivot profile --- shape --- Dekkera --- flavan-3-ols --- nonequilibrium conditions --- oxidation --- packaging --- clarification --- sweetener --- off-flavors --- Brettanomyces --- whey --- closure type --- coffee beverage --- oxygen sensor --- untrained panelist --- fermented beverage --- reduction --- sugar --- wine --- time-intensity evaluation
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Written by experts in the field of table olives, this book is a source of recent research advances on the characterization and processing of table olives. Research papers are provided relating to the characterization of their composition of volatiles and the sensory profile; mineral composition and bioavailability; changes in bioactive components (chlorophylls) by processing; and new strategies to reduce sodium and additives for stabilizing the organoleptic properties and avoiding defects in table olives. Other research papers are included in relation to microbiological and chemical changes in table olives during spontaneous or controlled fermentation employing different cultivars, and the optimized use of starter cultures for the improvement of the different fermentative processes. In addition, this book includes an overview of the main technologies used for olive fermentation, including the role of lactic acid bacteria and yeasts characterizing this process, and of the processing and storage effects on the nutritional and sensory properties of table olives.
Technology: general issues --- table olives --- starter cultures --- GC-MC analysis --- volatile composition --- bitterness --- consumer willingness to pay --- descriptive sensory analysis --- green-olive flavor --- “Manzanilla” cultivar --- pit hardening --- regulated deficit irrigation --- panel performance --- panelist --- black ripe table olives --- sensory descriptors --- sensory profile --- fermentation --- microbiological changes --- organoleptic --- physicochemical --- Clostridium --- logistic regression --- acid-adapted strains --- predictive models --- fermented vegetables --- undefined biodiverse starters --- autochtonous cultures --- lactic acid bacteria --- Lactobacillus pentosus --- Tonda di Cagliari --- table olive --- phenolic compounds --- oleuropein --- LAB --- yeasts --- fermented food --- probiotic table olives --- non-dairy probiotics --- sodium --- potassium --- calcium --- magnesium --- iron --- phosphorus --- darkened by oxidation olives --- Miller’s protocol --- Crews’ protocol --- post-digest re-extraction --- minerals --- sea salt --- PGI --- iodized salt --- functional food --- composition --- nutritional properties --- polyphenols --- sensory analysis --- chlorophyll --- pigments --- allomerization --- alkaline treatment --- phytyl-chlorin --- phytyl-rhodin --- Bella di Cerignola --- brines --- microbiological quality --- user-friendly spreadsheet --- producers --- bioaccessibility --- mineral nutrients --- pigment composition
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Written by experts in the field of table olives, this book is a source of recent research advances on the characterization and processing of table olives. Research papers are provided relating to the characterization of their composition of volatiles and the sensory profile; mineral composition and bioavailability; changes in bioactive components (chlorophylls) by processing; and new strategies to reduce sodium and additives for stabilizing the organoleptic properties and avoiding defects in table olives. Other research papers are included in relation to microbiological and chemical changes in table olives during spontaneous or controlled fermentation employing different cultivars, and the optimized use of starter cultures for the improvement of the different fermentative processes. In addition, this book includes an overview of the main technologies used for olive fermentation, including the role of lactic acid bacteria and yeasts characterizing this process, and of the processing and storage effects on the nutritional and sensory properties of table olives.
table olives --- starter cultures --- GC-MC analysis --- volatile composition --- bitterness --- consumer willingness to pay --- descriptive sensory analysis --- green-olive flavor --- “Manzanilla” cultivar --- pit hardening --- regulated deficit irrigation --- panel performance --- panelist --- black ripe table olives --- sensory descriptors --- sensory profile --- fermentation --- microbiological changes --- organoleptic --- physicochemical --- Clostridium --- logistic regression --- acid-adapted strains --- predictive models --- fermented vegetables --- undefined biodiverse starters --- autochtonous cultures --- lactic acid bacteria --- Lactobacillus pentosus --- Tonda di Cagliari --- table olive --- phenolic compounds --- oleuropein --- LAB --- yeasts --- fermented food --- probiotic table olives --- non-dairy probiotics --- sodium --- potassium --- calcium --- magnesium --- iron --- phosphorus --- darkened by oxidation olives --- Miller’s protocol --- Crews’ protocol --- post-digest re-extraction --- minerals --- sea salt --- PGI --- iodized salt --- functional food --- composition --- nutritional properties --- polyphenols --- sensory analysis --- chlorophyll --- pigments --- allomerization --- alkaline treatment --- phytyl-chlorin --- phytyl-rhodin --- Bella di Cerignola --- brines --- microbiological quality --- user-friendly spreadsheet --- producers --- bioaccessibility --- mineral nutrients --- pigment composition
Choose an application
Written by experts in the field of table olives, this book is a source of recent research advances on the characterization and processing of table olives. Research papers are provided relating to the characterization of their composition of volatiles and the sensory profile; mineral composition and bioavailability; changes in bioactive components (chlorophylls) by processing; and new strategies to reduce sodium and additives for stabilizing the organoleptic properties and avoiding defects in table olives. Other research papers are included in relation to microbiological and chemical changes in table olives during spontaneous or controlled fermentation employing different cultivars, and the optimized use of starter cultures for the improvement of the different fermentative processes. In addition, this book includes an overview of the main technologies used for olive fermentation, including the role of lactic acid bacteria and yeasts characterizing this process, and of the processing and storage effects on the nutritional and sensory properties of table olives.
Technology: general issues --- table olives --- starter cultures --- GC-MC analysis --- volatile composition --- bitterness --- consumer willingness to pay --- descriptive sensory analysis --- green-olive flavor --- “Manzanilla” cultivar --- pit hardening --- regulated deficit irrigation --- panel performance --- panelist --- black ripe table olives --- sensory descriptors --- sensory profile --- fermentation --- microbiological changes --- organoleptic --- physicochemical --- Clostridium --- logistic regression --- acid-adapted strains --- predictive models --- fermented vegetables --- undefined biodiverse starters --- autochtonous cultures --- lactic acid bacteria --- Lactobacillus pentosus --- Tonda di Cagliari --- table olive --- phenolic compounds --- oleuropein --- LAB --- yeasts --- fermented food --- probiotic table olives --- non-dairy probiotics --- sodium --- potassium --- calcium --- magnesium --- iron --- phosphorus --- darkened by oxidation olives --- Miller’s protocol --- Crews’ protocol --- post-digest re-extraction --- minerals --- sea salt --- PGI --- iodized salt --- functional food --- composition --- nutritional properties --- polyphenols --- sensory analysis --- chlorophyll --- pigments --- allomerization --- alkaline treatment --- phytyl-chlorin --- phytyl-rhodin --- Bella di Cerignola --- brines --- microbiological quality --- user-friendly spreadsheet --- producers --- bioaccessibility --- mineral nutrients --- pigment composition --- table olives --- starter cultures --- GC-MC analysis --- volatile composition --- bitterness --- consumer willingness to pay --- descriptive sensory analysis --- green-olive flavor --- “Manzanilla” cultivar --- pit hardening --- regulated deficit irrigation --- panel performance --- panelist --- black ripe table olives --- sensory descriptors --- sensory profile --- fermentation --- microbiological changes --- organoleptic --- physicochemical --- Clostridium --- logistic regression --- acid-adapted strains --- predictive models --- fermented vegetables --- undefined biodiverse starters --- autochtonous cultures --- lactic acid bacteria --- Lactobacillus pentosus --- Tonda di Cagliari --- table olive --- phenolic compounds --- oleuropein --- LAB --- yeasts --- fermented food --- probiotic table olives --- non-dairy probiotics --- sodium --- potassium --- calcium --- magnesium --- iron --- phosphorus --- darkened by oxidation olives --- Miller’s protocol --- Crews’ protocol --- post-digest re-extraction --- minerals --- sea salt --- PGI --- iodized salt --- functional food --- composition --- nutritional properties --- polyphenols --- sensory analysis --- chlorophyll --- pigments --- allomerization --- alkaline treatment --- phytyl-chlorin --- phytyl-rhodin --- Bella di Cerignola --- brines --- microbiological quality --- user-friendly spreadsheet --- producers --- bioaccessibility --- mineral nutrients --- pigment composition
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