Abstract
The influence of the addition of four legume flours, chickpea, broad bean, common bean and red lentil (in amounts of 5%, 10% and 15% to a wheat-rye composite flour (50:50:0-control flour), in ratios of 50:45:5; 50:40:10; 50:35:15) was studied by analyzing the rheological properties of dough in order to further exploit the functionality of legume flours in bakery products. The rheological properties of dough were monitored using a Mixolab 2. A Rheofermentometer F4 was used to check the dough fermentation, and a Volscan was used for evaluating the baking trials. The addition of different legume flours in the mixtures resulted in different viscoelastic properties of the dough. The results showed a weakening of the protein network depending on the amount of legume flour added and on the specific legume flour. On the contrary, all samples with a higher proportion of legume flour showed an increased resistance to starch retrogradation. All flours had the ability to produce a sufficient volume of fermenting gases, with the exception of flours with a higher addition of broad bean flour, and the baking test confirmed a lower bread volume for bread with this addition. The results of the sensory evaluation indicated that legume flour additions resulted in breads with an acceptable sensory quality, in the case of additions of 5% at the same level as the bread controls, or even better. The aromas and flavors of the added non-cereal ingredients improved the sensory profile of wheat-rye bread. Breads with additions of chickpea, common bean and broad bean had a considerable proportion of darker colors in comparison to the control bread and bread with red lentil.
Highlights
Bread has been part of the human diet for thousands of years and it remains the most regularly consumed food in the world, due to its convenience, portability, nutrition, and taste [1,2]
The results of the present study suggest that the incorporation of legume flours influences considerably the evaluated properties, and those flours with the addition of legumes behaved differently than wheat–rye flour
Water absorption significantly increased with the addition of common bean flour (CBF)
Summary
Bread has been part of the human diet for thousands of years and it remains the most regularly consumed food in the world, due to its convenience, portability, nutrition, and taste [1,2]. The main raw material used worldwide for bread production is wheat flour, which is characterized mainly by a high proportion of starch and a number of proteins poor in essential amino acids. Wheat flour is the only cereal flour that can form a three-dimensional viscoelastic dough when mixed with water. This unique ability of wheat to suit the production of leavened products is thanks to gluten, a cohesive, viscoelastic proteinaceous material, which retains fermenting gases. In Slovakia, the second traditional bakery raw material is rye flour, which has different technological properties, namely, it does not form gluten structures, and has a limited ability to create products with a large volume and good porosity [5,6,7]
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