Growth capacity of yeasts potential starter strains under cocoa fermentation stress conditions in Ivory Coast

Microbial pectinolytic strains are targeted as potential starter to control cocoa fermentation. This study analyses the ability of yeasts pectinolytic strains to grow under stress conditions. After an initial growth, a decline trend was observed in yeast growth cycle, during the cocoa fermentation....

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Veröffentlicht in:	Emirates Journal of Food and Agriculture 2014-10, Vol.26 (10), p.861-861
Hauptverfasser:	Samagaci, Lamine, Ouattara, Honore, Goualie, Bernadette, Niamke, Sebastien
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Sprache:	eng
Schlagworte:	Acids Alcohol Bacteria Beans Chocolate Cocoa Enzymes Fermentation Glucose Growth Iodine Methods Physiological aspects Potassium Production processes Standard deviation Yeast Yeast fungi
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creator	Samagaci, Lamine Ouattara, Honore Goualie, Bernadette Niamke, Sebastien
description	Microbial pectinolytic strains are targeted as potential starter to control cocoa fermentation. This study analyses the ability of yeasts pectinolytic strains to grow under stress conditions. After an initial growth, a decline trend was observed in yeast growth cycle, during the cocoa fermentation. The 36 yeasts pectinolytic strains screened from 205 isolates showed tolerance to both alcoholic stress (10-12% alcohol) and thermic stress (up to 40 degrees Celsius) corresponding to surviving population round 75%. However, temperature-alcohol cross stress provokes full inhibition of strains that failed to grow at only 35 degrees Celsius under 8-10% alcohol. As acid stress, citric acid at 4% has the same effect as alcohol. In contrast, acetic acid and lactic acid respectively at 0.5% and 2% exerted individually, a higher pressure on yeast growth inhibiting up to 60% the fungal population. However, the viability of yeasts strains to a given concentration of lactic (1%) or acetic (0.25%) acid proved to be relatively stable with YS201 at increasing temperature up to 40 degrees Celsius.
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This study analyses the ability of yeasts pectinolytic strains to grow under stress conditions. After an initial growth, a decline trend was observed in yeast growth cycle, during the cocoa fermentation. The 36 yeasts pectinolytic strains screened from 205 isolates showed tolerance to both alcoholic stress (10-12% alcohol) and thermic stress (up to 40 degrees Celsius) corresponding to surviving population round 75%. However, temperature-alcohol cross stress provokes full inhibition of strains that failed to grow at only 35 degrees Celsius under 8-10% alcohol. As acid stress, citric acid at 4% has the same effect as alcohol. In contrast, acetic acid and lactic acid respectively at 0.5% and 2% exerted individually, a higher pressure on yeast growth inhibiting up to 60% the fungal population. 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subjects	Acids Alcohol Bacteria Beans Chocolate Cocoa Enzymes Fermentation Glucose Growth Iodine Methods Physiological aspects Potassium Production processes Standard deviation Yeast Yeast fungi
title	Growth capacity of yeasts potential starter strains under cocoa fermentation stress conditions in Ivory Coast
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