Effects of adding quinoa flour on the composite wheat dough: a comprehensive analysis of the pasting, farinograph and rheological properties

Abstract

SummaryRefined wheat breads are popular staples worldwide. Although they have desirable texture, they generally attribute to a high glycaemic index value. Adding whole‐grain flour to produce composite breads with both slower starch digestibility and ideal texture worth investigation. The present study investigated the pasting, farinographic and viscoelastic properties of the quinoa flour (QF)‐wheat flour (WF) composite dough. QF addition reduced the peak, final, breakdown and setback viscosities of the composite flour, indicating that starch gelatinisation was inhibited and retrogradation was slowed. QF addition increased G′ and G′′, while decreased tan δ (G′′/G′), exhibiting that the elasticity prevailed over viscosity for the composite dough. Farinograph analysis showed that when QF addition exceeded 20%, the stability time decreased and weakening degree increased sharply. Although creep‐recovery tests showed that 40% of QF addition exhibited the highest resistance to deformation, it disrupted the gluten network and brought negative effects on the composite dough. Taken these together, the composite wheat dough containing 20% of QF exhibited ideal rheological properties comprehensively. These results might be useful to develop and optimise mixed‐grain breads with lower glycaemic index.