Dough characteristics as affected by different preferment types and fermentation times were evaluated. A dough type was obtained with yeasted stiff preferment (60% water), fermented for a long period (biga-type dough -B) and another one made with a semiliquid preferment (100% water), obtained with sourdough and fermented for a short period (poolish-type dough -P). The doughs obtained were compared with a standard dough (direct dough -D). During the first 60 min of fermentation, pH, titratable acidity, volume, empirical and fundamental rheological properties and gas cells number were evaluated. During fermentation time, all doughs underwent structural changes related mainly to an increase of resistance to the extension and a decrease of area and extensibility, with a noticeable change in volume and pH. Between all samples, B dough was the stiffest reaching the lowest volume (44.3 mL), the highest storage modulus (G′ = 10,982 Pa) and resistance to extension (31.78 g).
PRACTICAL APPLICATIONSThis research provides practical information regarding how different fermentation methods (biga type, poolish type and direct method) can influence textural properties, pH, volume development and inner structure of doughs. During fermentation time, all doughs underwent structural changes depending on the fermentation methods used. The modifications are related mainly to an increase of resistance to the extension and a decrease of area and extensibility, with a noticeable change in volume and pH. Results indicate that different fermentation methods affect the dough characteristics. This information would be of benefit to the bakery products industry to optimize the main dough characteristics choosing the appropriate fermentation method, depending on the bakery product to realize.