Volatile compound and organic acid productions by mixed wheat sour dough starters: influence of fermentation parameters and dynamics during baking

Abstract

Lactobacillus brevis subsp. lindneri CB1, Lactobacillus plantarum DC400 and Saccharomyces cerevisiae 141 or Saccharomyces exiguus M14 were used as starters to produce wheat sour dough breads. Sour doughs with higher relative percentage of yeast fermentation products (1-propanol, 2-methyl-1-propanol, 3-methyl-1-butanol and ethanol) and with higher total peak area of volatile compounds, or with a more complete profile (higher amounts of ethylacetate and lactic and acetic acids, and the presence of carbonyl compounds) were produced by the associations between lactic acid bacteria (LAB) and S. cerevisiae 141 or S. exiguus M14, respectively. Low temperature (25°C) and sour dough firmness (dough yield 135) were appropriate for LAB souring activities but limited yeast metabolism. Raising the temperature to 30°C and semi-fluid sour doughs gave more complete volatile profiles. Flour ash content from 0·55–1% positively influenced the total amount of volatiles and lactic and acetic acid productions. While at 3 h the sour dough was mainly characterized by iso-alcohols, an increase of leavening time up to 9 h gave a total amount of volatiles about three times higher than that at 5 h and strengthened the LAB contribution. The additions of fructose and citrate to the dough enhanced the acetic acid and volatile synthesis by LAB, respectively. After baking, the ethanol disappeared, 2-methyl-1-propanal was synthetized, lactic and acetic acids remained constant, the total amount of volatiles was reduced to a level <12·5% of the initial and an increase in the relative percentage of iso-alcohols and aldehydes was detected. The differences attributed to the two mixed starters were maintained after baking. A comparison between amino acid and volatile profiles before and after baking showed the influence of amino acids on the formation of volatiles during baking.