legume flours
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2021 ◽  
Vol 46 ◽  
pp. S574
Author(s):  
P. Binou ◽  
A. Yanni ◽  
S. Manios ◽  
P. Konstantopoulos ◽  
A. Kokkinos ◽  
...  

Foods ◽  
2021 ◽  
Vol 10 (9) ◽  
pp. 2227
Author(s):  
Angela Mariela González-Montemayor ◽  
José Fernando Solanilla-Duque ◽  
Adriana C. Flores-Gallegos ◽  
Claudia Magdalena López-Badillo ◽  
Juan Alberto Ascacio-Valdés ◽  
...  

In this study, proximal composition, mineral analysis, polyphenolic compounds identification, and antioxidant and functional activities were determined in green bean (GBF), mesquite (MF), and pea (PF) flours. Different mixtures of legume flour and wheat flour for bread elaboration were determined by a simplex-centroid design. After that, the proximal composition, color, specific volume, polyphenol content, antioxidant activities, and functional properties of the different breads were evaluated. While GBF and PF have a higher protein content (41–47%), MF has a significant fiber content (19.9%) as well as a higher polyphenol content (474.77 mg GAE/g) and antioxidant capacities. It was possible to identify Ca, K, and Mg and caffeic and enolic acids in the flours. The legume–wheat mixtures affected the fiber, protein content, and the physical properties of bread. Bread with MF contained more fiber; meanwhile, PF and GBF benefit the protein content. With MF, the specific bread volume only decreased by 7%. These legume flours have the potential to increase the nutritional value of bakery goods.


Nutrients ◽  
2021 ◽  
Vol 13 (9) ◽  
pp. 3226
Author(s):  
Dale Bielefeld ◽  
Jaimee Hughes ◽  
Sara Grafenauer

Evidence supports regular dietary inclusion of legumes due to their positive effects on both human and planetary health. Intake within Australia is suboptimal, with consumer data suggesting that an inability to integrate legumes into usual dietary patterns is a barrier to consumption. This places the food industry in a unique position to offer Australians the ability to incorporate legumes into usual dietary patterns via innovative new products. The aim of this study was to explore the legume category and compare nutrition product data and the use of nutrition and health claims between 2019 and 2021. An audit of legume products from four major metropolitan Sydney supermarkets (Aldi, Coles, IGA, Woolworths) collected ingredient lists, nutrition information and on-pack claims for baked beans, legume dips, legume flours, legume snacks (including subcategories of legume chips and whole legume snacks), canned legumes, dried legumes, frozen legumes, and pulse pasta. The total number of legume products available on the market nearly doubled from 2019 (n = 312) to 2021 (n = 610); this was driven by traditional plain canned and dried legumes and some new and convenient options, particularly snacks (legume chips) where the largest growth occurred. Of all legume products (n = 610), 82% met the Nutrient Profiling Scoring Criteria, 86.8% were at least a source of dietary fibre, and 55.9% were at least a source of protein. Nutrition content claims relating to dietary fibre, gluten free and protein more than doubled since 2019, with each featuring on over one third of the products identified in 2021. Vegan/vegetarian on-pack claims more than doubled since 2019, and claims related to the term plant-based/plant protein and environmental sustainability emerged on packs in 2021. By addressing barriers to consumption, such as lack of time and knowledge on how to prepare legumes, innovative legume products may help influence future consumption patterns.


Author(s):  
Swiny Sandhvi Vishakha singh

Proso millet is a protein-rich grain that also contains minerals such as phosphorus and magnesium. The amount of phosphrous (206mg) and magnesium (153mg) in this millet is higher than in other millets. Processing such as soaking and roasting affects the mineral content and fibre, however it reduced anti-nutritional factors like phytate and tannin content. Many traditional Indian Recipes have been prepared from proso millet or blended with other cereal and legume flours to enhance the nutritional value and palatability. Development and value addition to proso millet incorporated fresh products like Proso millet chapati and kitchari. It can be concluded that sensory evaluation done on all the recipes revealed that Proso millet significantly improved their organoleptic evalutaion. Proso millet formulated chapati and kitchari was found rich in nutrients and its overall acceptability was also good.


Author(s):  
Xiufeng Li ◽  
Jasper van der Gucht ◽  
Philipp Erni ◽  
Renko de Vries
Keyword(s):  

Author(s):  
Haq Nawaz ◽  
Momna Aslam ◽  
Tanzila Rehman ◽  
Rabia Mehmood

Background: The effect of blend formation on emulsifying activity (EA) and emulsifying stability (ES) of some commonly used cereal and legume flours, using different oils, was studied. Methods: The blends of wheat flour (WF), refined wheat flour (RWF) and maize flour (MF) were prepared by mixing with equal proportions of chickpea flour (CPF) (1:1w/w) in a kitchen blender and analyzed for EA and ES using coconut, canola, corn, rapeseed and sunflower oils. Result: Statistically significant variations (p less than 0.05) were observed in the emulsifying properties of the flours and their blends. The blending of cereal flours with CPF showed mixed responses of variation in emulsifying properties from those of the respective pure flours. The EA of the blends was found to be increased from those of the pure WF and RWF but decreased from those of the pure MF and CPF with some exceptions. However, the ES of the blends was decreased from that of the pure WF and increased from those of the pure RWF, MF and CPF. The data would be a valuable contribution to the literature regarding the improvement of functional properties of cereal foods. 


Foods ◽  
2021 ◽  
Vol 10 (5) ◽  
pp. 1087
Author(s):  
Tatiana Bojňanská ◽  
Janette Musilová ◽  
Alena Vollmannová

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.


2021 ◽  
pp. 110398
Author(s):  
S. Garrido-Galand ◽  
A. Asensio-Grau ◽  
J. Calvo-Lerma ◽  
A. Heredia ◽  
A. Andrés

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