Abstract
Despite the high nutritional profile in pulses, pulse consumption in Sweden is still low. However, the recent increase in consumption of sustainable and locally produced food in Sweden is driving demand for a versatile, functional pulse‐based ingredient that can be incorporated into different food products. This study assessed different treatments (boiling, roasting, and germination) when preparing flour from domestically grown pulses (yellow pea, gray pea, faba bean, and white bean). Functional properties (water and oil absorption capacity, emulsion and foaming properties, and gelation concentration) of the flours produced following different treatments and their nutrient content (total dietary fiber, total choline, and folate content) were determined. Depending on pulse type, all treatments increased (p < .001) water absorption capacity up to threefold and gelation concentration up to twofold, whereas emulsion activity and foaming capacity decreased by 3%–33% and 5%–19%, respectively, compared with flour made from raw pulses. All treatments also had a significant effect (p < .001) on nutrient content. Total dietary fiber increased (p < .02) by 11%–33%, depending on treatment and pulse type. Boiling decreased (p < .001) total choline and folate content in all pulse flours, by 17%–27% and 15%–32%, respectively. Germination doubled folate content (p < .001) in flour from both pea types compared with flour from the raw peas. In conclusion, treated pulse flours could be useful in food applications such as coating batter, dressings, beverages, or bakery goods, to improve the content of fiber, total choline, and folate.
Highlights
Pulses are characterized by high contents of total dietary fiber and folate (FAO, 2016; Ramdath, Renwick, & Duncan, 2016), dietary intake of which is below the recommended level in Sweden (NFA, 2012)
The present study has shown that various treatments affected the functional properties and nutrient content of pulse flours differently
The functional properties and nutrient content of pulse-based flours were found to be affected by treatment and type of pulse
Summary
Pulses are characterized by high contents of total dietary fiber and folate (FAO, 2016; Ramdath, Renwick, & Duncan, 2016), dietary intake of which is below the recommended level in Sweden (NFA, 2012). Increased consumption of pulse-based foods might improve the dietary fiber and folate intake of the Swedish population in the long term. Pulses contain several antinutritional compounds, for instance, protease inhibitors hampering digestion of proteins, oligosaccharides that may cause flatulence and phytate that may chelate essential minerals thereby lowering their absorption (Sánchez-Chino, Jiménez-Martínez, Dávila-Ortiz, Álvarez-González, & Madrigal-Bujaidar, 2015). Treatments such as soaking, wet or dry heating, and germination could reduce the content of antinutritional compounds and undesirable beany flavor in pulse flour (Jiang et al, 2016; Khattab & Arntfield, 2009). Accurate data on the content of nutrients such as dietary fiber, resistant starch, folate, and choline are needed for nutritional characterization of Swedish-grown pulses
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