Litcius/Paper detail

Waste bread recycling as a baking ingredient by tailored lactic acid fermentation

Mikko Immonen, Ndegwa Henry Maina, Yaqin Wang, Rossana Coda, Kati Katina

2020International Journal of Food Microbiology48 citationsDOIOpen Access PDF

Abstract

Food-grade waste and side streams should be strictly kept in food use in order to achieve sustainable food systems. At present, the baking industry creates food-grade waste as excess and deformed products that are mainly utilized for non-food uses, such as bioethanol production. The purpose of this study was therefore to explore the potential of waste wheat bread recycling for fresh wheat bread production. Waste bread recycling was assessed without further processing or after tailored fermentation with lactic acid bacteria producing either dextran or β-glucan exopolysaccharides. When non-treated waste bread slurry was added to new bread dough, bread quality (specific volume and softness) decreased with increasing content of waste bread addition. In situ EPS-production (dextran and microbial β-glucan) significantly increased waste bread slurry viscosity and yielded residual fructose or glucose that could effectively replace the sugar added for yeast leavening. Furthermore, fermentation acidified waste bread matrix, thus improving the hygienic safety of the process. Bread containing dextran synthesized in situ by Weissella confusa A16 showed good technological quality. The produced dextran compensated the adverse effect of recycled bread on new bread quality attributes by 12% increase in bread specific volume and 37% decrease in crumb hardness. In this study, a positive technological outcome of the bread containing microbial β-glucan was not detected. The waste bread fermented by W. confusa A16 containing dextran appears to enable safe bread recycling with low acidity and minimal quality loss.

Topics & Concepts

Leavening agentFood scienceFermentationFood wasteIngredientChemistryLactic acidFood industrySugarRaw materialBacteriaWaste managementBiologyGeneticsOrganic chemistryEngineeringFood composition and propertiesBiofuel production and bioconversionProbiotics and Fermented Foods